武汉科技大学留学研究生培养方案（2020版）.doc

目 录 资源与环境工程学院 矿业工程博士研究生培养方案............................................................1 矿业工程硕士研究生培养方案............................................................8 安全科学与工程博士研究生培养方案.....................................................15 安全科学与工程硕士研究生培养方案.....................................................22 材料与冶金学院 材料科学与工程博士研究生培养方案.....................................................29 材料科学与工程硕士研究生培养方案.....................................................36 冶金工程博士研究生培养方案...........................................................42 冶金工程硕士研究生培养方案...........................................................49 机械自动化学院 机械工程博士研究生培养方案...........................................................55 机械工程硕士研究生培养方案...........................................................63 信息科学与工程学院 控制科学与工程博士研究生培养方案.....................................................71 控制科学与工程硕士研究生培养方案.....................................................79 化学与化工学院 化学工程与技术博士研究生培养方案.....................................................86 化学工程与技术硕士研究生培养方案.....................................................93 恒大管理学院 工商管理硕士（MBA）研究生培养方案.....................................................100 理学院 系统科学博士研究生培养方案..........................................................107 系统科学硕士研究生培养方案..........................................................114 矿业工程博士研究生培养方案 （学科代码：0819 授 工学博士 学位） 一、培养目标 培养系统全面掌握矿业工程学科坚实宽广的基础理论和专门知识及相关学科知识；能运用现代科学理 论、实验手段和信息工具，独立从事矿业工程领域科学研究和独立担负专门技术工作，在本学科有关理论 和工程实际问题的研究中做出创造性成果的高层次人才。 二、研究方向 1. 矿床开采理论与技术 2. 岩土力学与边坡工程 3. 矿业经济与系统工程 4. 爆炸理论与应用 5. 矿物加工新工艺及新设备 6. 矿物化学提取 7. 城市矿产资源综合利用 8. 铁矿造块与直接还原 三、学习年限 本学科博士生的学习年限一般为 3-5 年。 四、学分要求 矿业工程博士研究生学分要求及学分分配表 ≥26 学分 总学分 公共必修课 6 学分 其中：汉语 4 学分，中国概况 2 学分 修课学分 ≥14 学分 公共选修课≥2 学分 学科基础课≥4 学分 专业选修课≥2 学分 开题报告 1 学分 研究环节 12 学分 学术交流 1 学分 论文中期进展报告及考核 1 学分 学位论文 9 学分 具体课程设置见课程计划表 1 五、培养要求 1.基本要求 全面系统掌握本学科的科学理论与技术及相关学科的理论基础，对本学科的发展历史、现状和前沿动 态有深入的了解，具备坚实的基础理论和系统宽广的专门知识。能运用现代科学理论和实验手段、计算机 应用技术和信息技术，创造性地进行本学科方向有关的理论和实际问题的研究。具有创造性地发现和解决 矿业工程实际问题的能力，遵守学术道德规范，具有强烈的事业心和责任感。至少掌握一门外国语，具备 熟练阅读本专业的外文文献，进行国际学术交流的能力。达到《中华人民共和国高等教育法》、《中华人 民共和国学位条例》等的相关要求。 2.开题要求 以书面及答辩形式作为开题报告，记 1 学分，成绩按通过/不通过登记。 开题报告的内容主要包括：课题来源和选题依据，对国内外有关文献进行阅读、分析和总结（不少于 70 篇）；研究方案需阐明：研究目标、研究内容、关键问题与创新点、研究方法、技术路线、实验方案等； 研究工作计划及时间安排。 开题报告至少由 5 名具有副教授以上职称（其中至少 3 名教授）审定并签署意见，答辩环节至少有 5 名具有副教授以上职称（其中至少 3 名教授）参加，答辩未能通过者，必须重新做开题报告。 开题报告一般应为 0.8～1.5 万字。开题报告评审通过后，须完整填写《博士研究生开题报告》，交学 院留存，毕业时归入学位档案。 3.论文中期进展要求 必须以书面及答辩形式做论文研究中期进展报告，记 1 学分。 中期进展报告就课题的实验方法、数据、结果的可靠性、设计方案初步结论的正确性以及能否如期完 成学位论文工作等进行公开答辩，须有至少 5 名具有副教授以上职称（其中至少 3 名教授）或博士学位者 对中期报告进行考核，对存在的问题提出指导性建议。 中期考核通过后，须填写《博士生中期报告及综合考核表》交研究生院，复印件和书面开题报告交学 院留存。 4.参加学术活动要求 研究生须参加 9 次以上学术活动，记 1 学分。每次参加学术活动应有书面记录，做学术报告应有书面 材料，在申请学位前，经导师签字的书面记录交学院备案并记相应学分。 5.发表学术论文要求 按照《武汉科技大学博士、硕士研究生申请学位取得学术成果的规定》执行。 6.学位论文预答辩要求 研究生完成所有培养环节，满足发表学术论文要求，按照《武汉科技大学博士、硕士学位授予工作细 则》及《武汉科技大学研究生学位论文检测规定（试行）》等文件执行。 7.学位论文答辩要求 按照《武汉科技大学博士、硕士学位授予工作细则》及《武汉科技大学研究生学位论文检测规定（试 行）》等文件执行。 2 矿业工程博士研究生课程计划表 类别 课程 性质 课程编号 公共 17BSA0601 汉语 必修课 学 学时 学分 开课 学期 课程名称 160 4 1 开课学院 备注 文法与经济学院 必修 17BSA2101 中国概况 32 2 1 国际学院 18BD01101 高等矿山地质学 32 2 1 资源与环境工程学院 15BD01102 岩石力学新进展 32 2 2 资源与环境工程学院 19BD01101 近代分析测试技术 32 2 2 资源与环境工程学院 15BD01121 湿法冶金学 40 2.5 1 资源与环境工程学院 15BD01122 结构化学 40 2.5 2 资源与环境工程学院 15BD01123 泥沙运动学 40 2.5 2 资源与环境工程学院 19BD01101 近代分析测试技术 32 2 2 资源与环境工程学院 6 0 2 国际学院 必修 19BSY2101 来华留学的跨文化适应 32 2 2 国际学院 必修 19BSY0701 数值分析 16 1 1 理学院 矿山地质边坡稳定性分 32 析与控制 2 1 资源与环境工程学院 15BC01121 现代矿物浮选溶液化学 40 2.5 1 15BYJ0101 开题报告 1 15BYJ0102 学术交流≥9 次 1 采矿工程 选修 位 课 学科 基础课 20BS51001 公共 选 选修课 修 课 专业 选修课 研究 环节 18BC01101 15BYJ0103 科学道德与学术论文写 作 论文中期进展报告及考 核 15BYJ0104 学位论文 3 矿物加工 工程选修 采矿工程 选修 矿物加工 资源与环境工程学院 工程选修 资源与环境工程学院 必修 1 资源与环境工程学院 9 资源与环境工程学院 Educational Program for Doctoral Students of Mineral Engineering (Discipline Code: 0819 Conferred Degrees: Doctor of Engineering ) Ⅰ.Educational Objectives The program’s purpose is to educate high-caliber personnel with such abilities as: having a solid foundation of basic theories, and specialized and relevant knowledge in Mineral Engineering discipline; conducting independent scientific research and undertaking specialized technical work in the field of Safety Science and Engineering with modern scientific theories, experimental equipment and information tools; and having made creative achievements in theoretical study and practical engineering work in this disciplinary domain. Ⅱ.Research Fields 1. Mining Theories and Technologies 2. Rock and Soil Mechanics and Slope Engineering 3. Mining Economics and Systems Engineering 4. Explosion Theory and Application 5. New Mineral Processing Technologies and Equipment 6. Mineral Chemical Extraction 7. Comprehensive Utilization of Urban Mineral Resources 8. Iron Mine Agglomeration and Direct Reduction Ⅲ. Program Duration The duration of study for doctoral students normally ranges from 3 to 5 years. Ⅳ.Credit Requirements Credit Requirements and Allocation Instructions for Doctoral Students of Mineral Engineering Total Credits ≥26credits Public Compulsory Courses total 6 credits, among which 4 credits are for Chinese Language, and 2 credits for A Survey of course credits China ≥14credits Public Elective Courses≥2 credits Subject Basic Courses ≥4 credits Elective Specialized Courses ≥2 credits research session 12credits Thesis Proposal, 1 credit Academic communication, 1 credit 4 Mid-term Progress Report and Thesis Assessment, 1 credit Dissertation, 9 credits Please refer to the attached Curriculum for specific course arrangements Ⅴ. Training Requirements 1. Basic Requirements Completely mastering scientific theories and technologies of the discipline and theoretical foundation of relevant disciplines. Having an in-depth understanding of the development history, status quo and leading edge of the discipline, and possessing solid basic theories and systematic and extensive expertise. Being able to conduct original studies both in theories and practice with modern scientific theories, experimental means, computer application technology and information technology. Innovatively discovering and resolving practical problems in Mineral Engineering, Complying with academic ethics, and having a strong sense of dedication and responsibility. Mastering at least one foreign language to read foreign professional literatures and conducting international academic exchanges. Meeting requirements of The Higher Education Law of the People's Republic of China and Regulations of the People's Republic of China on Academic Degrees. 2.Thesis Proposal Requirements Thesis proposal shall be presented in a written and oral defense form, counting 1 credit, Grades are either pass or fail. Contents of a thesis proposal shall include: the background and basis of the selected topic, a review of domestic and abroad literature with an analysis and a summary (no less than 70 articles); The research program should illustrate research objectives, content, key problems and innovation, research method, technical approach, and experiment means; and a research plan and a time schedule. A thesis proposal report shall be reviewed and commented by at least five associate professors and above titles (at least three of whom are professors). There should be at least five associate professors and above titles (at least three professors) attending the oral defense. If students failed the oral defense, the thesis proposals should be re-prepared. A thesis proposal normally ranges from 8000 to 15,000 words. When a proposal report is appraised and approved, a Doctoral Candidate’s Thesis Proposal Form shall be completed and submitted to one’s school and reserved in the degree achieves. 3.The Mid-term Progress Requirements for a Thesis The mid-term progress of a thesis shall be presented in a written and oral defense form, counting 1 credit. The mid-term progress report should be presented publicly around the validity of experiment methods, data, results, preliminary conclusion from the research approach, and whether the thesis can be completed on schedule. There should be at least five associate professors and above titles (at least three professors) or doctors attending the oral defense and providing advice for existing problems. 5 Once the mid-term examination is passed, a Doctoral Student’s Mid-term Report and Comprehensive Assessment Form shall be completed and submitted to the Graduate School, and a copy of that and a written form of the original thesis proposal report shall be preserved by the school. 4.Requirements for Academic Activities A graduate student shall participate in at least nine academic activities, counting 1 credit. A written record shall be prepared for each academic activity and a written material shall be reserved for an academic presentation. The written record signed by the supervisor shall be submitted to the school to register credits before applying for a degree. 5. Academic Articles Publishing Requirements Follow the Provisions of Doctoral and Master Students of Wuhan University of Science and Technology Applying for a Degree and Gaining Academic Achievements. 6. Dissertation Pre-Defense Requirements A graduate student shall complete all training sessions, meet academic articles publishing requirement, and shall follow the Working Rules on Awarding Doctoral and Master Degrees of Wuhan University of Science and Technology, and the Graduate Student Dissertation Detection Rules of Wuhan Wuhan University of Science and Technology (Trial). 7.Dissertation Defense Requirements Follow the Working Rules on Awarding Doctoral and Master Degrees of Wuhan University of Science and Technology, and Graduate Student Dissertation Detection Rules of Wuhan Wuhan University of Science and Technology (Trial), etc. 6 Curriculum for Doctoral Students of Mineral Engineering Category Course Nature Course Code Course Name Hour Credit Public 17BSA0601 Chinese Language Compulsory Courses 17BSA2101 A Survey of China Degree Courses Subject Basic Courses Public Elective Courses Selective Courses Elective Specialized Courses research session Semester School School of Literature, Law and Economics International School Notes 160 4 1 32 2 1 18BD01101 Advanced Mining Engineering Geology 32 2 1 15BD01102 New Development in Rock Mechanics Modern Analysis and Measurement 19BD01101 Technology 15BD01121 Hydro-metallurgy 32 2 2 32 2 2 40 2.5 1 15BD01122 Structural Chemistry 40 2.5 2 15BD01123 Sediment Kinematic Modern Analysis and Measurement 19BD01101 Technology Scientific Ethics and Academic 20BS51001 Journal Writing Cross-Culture Adaptation —Study in 19BSY2101 China 19BSY0701 Numerical Analysis Stability Analysis and Control of Mine 18BC01101 Slope 40 2.5 2 32 2 2 6 0 2 International School compulsory 32 2 2 International School compulsory 16 1 1 College of Science 32 2 1 40 2.5 1 15BC01121 Solution Chemistry of Modern Mineral Flotation 15BYJ0101 Research Proposal 1 15BYJ0102 Academic Communication, ≥9 times The Mid-term Progress Report and 15BYJ0103 evaluation 15BYJ0104 Dissertation 1 1 9 7 compulsoryCompul sory School of Resource and Environmental Engineering Optional for Mining Engineering Major School of Resource and Environmental Engineering School of Resource and Optional for Environmental Engineering Mineral Processing Engineering Major School of Resource and Environmental Engineering Optional for Mining Engineering Major School of Resource and Optional for Environmental Engineering Mineral Processing Engineering Major School of Resource and Environmental Engineering Compulsory School of Resource and Environmental Engineering 矿业工程硕士研究生培养方案 （学科代码：0819 授 工学硕士 学位） 一、培养目标 培养掌握矿业工程学科坚实的基础理论和系统的专门知识，具备运用计算机和先进测试手段的能力， 具有从事科学研究或独立担负专门技术工作的能力，了解学科现状、发展趋势及国际发展动态，在本学科 有关理论和工程实际问题的研究中取得成果的高层次人才。 二、研究方向 1. 采矿系统工程 2. 矿床开采方法与工艺 3. 资源经济 4. 爆破工程 5. 矿物加工理论与新工艺 6. 矿物提取技术 7. 二次资源综合利用 8. 造块与直接还原理论与技术 三、学习年限 全日制攻读学术型硕士学位的学习年限为 2-3 年。 四、学分要求 矿业工程学术硕士研究生学分要求及学分分配表 ≥32 学分 总学分 公共必修课≥6 学分 修课学分 ≥25 学分 公共选修课≥2 学分 学科基础课≥10 学分 专业选修课≥7 学分 开题报告 1 学分 研究环节 7 学分 学术交流 1 学分 论文中期进展报告 1 学分 学位论文 4 学分 具体课程设置见附表 8 五、研究环节与学位论文 1.培养基本要求 具有本学科坚实的基础理论和系统的专门知识，了解学科现状、发展趋势及国际发展动态。具备运用 计算机和先进测试手段的能力，具有从事科学研究或独立担负专门技术工作的能力。具有科学的世界观和 方法论，具备严谨的科研作风和良好的团队合作精神。至少熟练掌握一门外国语，具备阅读本专业外文文 献的能力。达到《中华人民共和国高等教育法》、《中华人民共和国学位条例》等的相关要求。 2.开题要求 以书面及答辩形式就论文开题作报告，记 1 学分。 开题报告的内容一般应包括：（1）课题来源和选题依据，对国内外有关文献进行阅读、分析和总结 （不少于 40 篇，其中外文不少于 10 篇）；（2）研究方案，阐明研究目标、研究内容、关键问题与创新 点、研究方法、技术路线、实验方案等；（3）研究工作基础，说明具备的研究条件、研究过程中可能遇 到的困难和问题及其可能的解决办法和措施；（4）研究工作计划及时间安排。 开题报告须有至少 5 名具有副教授以上职称或博士学位者审定并签署意见，答辩环节至少有 5 名具有 副教授以上职称或博士学位者参加，答辩未能通过者，必须重新做开题报告。 书面开题报告一般应为 0.5～1.0 万字。开题报告评审答辩通过后，须完整填写《硕士研究生开题报 告》，交学院留存，毕业时归入学位档案。 3.参加学术活动要求 研究生须参加 6 次以上学术活动，记 1 学分。每次参加学术活动应有书面记录，做学术报告应有书面 材料，在申请学位前，经导师签字的书面记录交学院备案并记相应学分。 4.学位论文答辩要求 研究生完成所有培养环节，学位论文的相关要求参照《武汉科技大学博士、硕士研究生申请学位取得 学术成果的规定》、《武汉科技大学博士、硕士学位授予工作细则》及《武汉科技大学研究生学位论文检 测规定（试行）》等文件执行。 9 矿业工程学术硕士研究生课程计划表 类别 课程 性质 课程编号 公共 17BSA0601 汉语 学时 学分 开课 学期 课程名称 开课学院 备注 160 4 1 文法与经济学院 32 2 1 国际学院 18SD01101 高等采矿学 40 2.5 1 18SD01102 矿山岩石力学 40 2.5 1 18SD01103 矿山地质学 40 2.5 2 18SD01104 矿山安全 40 2.5 2 15SY22109 现代仪器分析 32 2 2 15SD01123 胶体与表面化学 48 3 1 40 2.5 2 15SD01125 高等造块学 48 3 2 15SD01126 高等矿物加工学 48 3 2 15SD01127 浮选电化学 32 2 2 15SY22109 现代仪器分析 32 2 2 化学与化工学院 科学道德与学术论文写 作 6 0 2 国际学院 必修 19BSY2101 来华留学的跨文化适应 32 2 2 国际学院 必修 16 1 1 理学院 18SY01101 安全风险评价 40 2.5 1 采矿工程 18SY01102 采矿物理模型 32 2 2 选修，≥7 学 选 18SY01103 数值仿真 48 3 2 修 15SY01110 二次资源综合利用 32 2 2 15SY01111 矿物加工实验技术 32 2 1 15SY01112 直接还原与熔融还原 32 2 2 15SY01113 矿物先进提取技术 32 2 2 15SY01114 矿物分析测试技术 32 2 2 15SY01115 矿物材料导论 32 2 2 必修课 17BSA2101 中国概况 学 位 课 学科 基础课 15SD01124 界面分选原理 20BS51001 公共 选修课 19BSY0701 数值分析 课 专业 选修课 15SYJ0101 开题报告 1 研究 15SYJ0102 学术交流≥6 次 1 环节 15SYJ0103 论文中期进展报告 1 15SYJ0104 学位论文 4 10 资源与环境工程学院 必修 采矿工程 选修，≥10 学分 化学与化工学院 资源与环境工程学院 矿物加工 工程选修， ≥10 学分 分 资源与环境工程学院 矿物加工 工程选修， ≥7 学分 资源与环境工程学院 必修 Educational Program for Master Students of Mineral Engineering (Discipline Code: 0819 Conferred Degrees: Master of Engineering ) Ⅰ. Educational Objectives The program’s purpose is to educate high-caliber personnel with such abilities as: having a solid foundation of basic theories and systematically specialized knowledge in the Mineral Engineering discipline; having the ability to work with computer and advanced experimental techniques; conducting independent scientific research or undertaking specialized technical work; understanding the status quo, development trends and frontier dynamics of the discipline; and having made achievements in theoretical study and practical engineering work in this disciplinary domain. Ⅱ.Research Fields in Mineral Engineering 1. Mining System Engineering 2. Mining Theories and Technologies 3. Resource Economics 4. Explosion Engineering 5. Mineral Processing Theories and New Technologies 6. Mineral Extraction Technologies 7. Comprehensive Utilization of Secondary Resources 8. Agglomeration and Direct Reduction Theories and Technologies Ⅲ. Program Duration The duration of study for full-time master students (academic) normally ranges from 2 to 3 years. Ⅳ.Credit Requirements Credit Requirements and Allocation Instructions for Academic Master Students of Mineral Engineering Total Credits ≥32 Public Compulsory Courses ≥6 credits, Course Credits ≥25credits Public Elective Courses≥2 credits Subject Basic Courses ≥ 10 credits Elective Specialized Courses ≥ 7 credits Research 7credits Thesis Proposal, 1 credit 11 Session Academic communication, 1 credit Mid-term Progress Report, 1 credit Degree Thesis, 4 credits Please refer to the attached Curriculum for specific course arrangements Ⅴ. Research and Dissertation 1. Basic Requirements Possessing a solid foundation of basic theories and systematically specialized knowledge of the subject; being able to work with computers and advanced experimental techniques; having the ability to independently conduct scientific research or undertake specialized technical work; possessing a scientific world outlook and methodology with a rigorous research style and teamwork spirit; Mastering at least one foreign language to read foreign professional literatures; and meeting requirements of The Higher Education Law of the People's Republic of China and Regulations of the People's Republic of China on Academic Degrees. 2. Thesis Proposal Requirements Thesis proposal shall be presented in a written and oral defense form, counting 1 credit. Contents of a thesis proposal shall include: (1) the background and basis of the selected topic, and a review of domestic and abroad literature with an analysis and a summary (no less than 40 articles including at least 10 foreign language articles); (2) a research program with an illustration of research objectives, content, key research questions, innovation points, research method, technical approach, experiment means, etc. (3) the research foundation illustrating exsiting research condition, and possible difficulties, problems, and their possible solutions and measures during the research process; (4) a research plan and a time schedule. A thesis proposal report shall be reviewed and commented by at least five associate professors and above titles or doctors. There should be at least five (associate) professors or doctors attending the oral defense. If students failed the oral defense, the thesis proposals should be re-prepared. A thesis proposal normally ranges from 5000 to 10,000 words. When a proposal report is appraised and approved, a Master Candidate’s Thesis Proposal Form shall be completed and submitted to one’s school and reserved in the degree achieves. 3.Requirements for Academic Activities A graduate student shall participate in at least six academic activities, counting 1 credit. A written record shall be prepared for each academic activity and a written material shall be kept for an academic presentation. The written record signed by the supervisor shall be submitted to the school to register credits before applying for a degree. 4.Dissertation Defense Requirements A graduate student shall complete all training sessions, and shall follow the Provisions of Doctoral and Master Students of Wuhan University of Science and Technology Applying for a Degree and Gaining Academic Achievements, Working Rules on Awarding Doctoral and Master Degrees of Wuhan University of Science and Technology, and the Graduate Student Dissertation Detection Rules of Wuhan University of Science and Technology (Trial). 12 Curriculum for Master Students of Mineral Engineering Category Course Nature Course Code Public Compulsory Courses 17BSA0601 Chinese Language Hour Credit Semester 160 4 1 School School of Literature, Law and Economics Notes Compulsory 17BSA2101 A Survey of China 32 2 1 18SD01101 Advanced Mining Engineering 40 2.5 1 18SD01102 Mining rock mechanics 40 2.5 1 18SD01103 Mining Geology 40 2.5 2 18SD01104 Mining safety 40 2.5 2 15SD01105 GIS Principles and Applications 32 2 2 15BD22101 Modern Analysis and Measurement Technology 32 2 1 15SD01123 Colloid and Surface Chemistry 48 3 1 15SD01124 Interface Separation Principle 40 2.5 2 15SD01125 Higher Agglomeration 48 3 2 15SD01126 Higher Mineral Processing 48 3 2 15SD01127 Flotation Electrochemistry 32 2 2 15BD22101 Modern Analysis and Measurement Technology Scientific Ethics and 20BS51001 Academic Journal Writing Public Elective 19BSY2101 Cross-Culture Adaptation —Study in China 32 2 1 School of Chemistry and Chemical Engineering 6 0 2 International School Compulsory 32 2 2 International School Compulsory Degree Courses Subject Basic Courses Selective Course Name 13 International School School of Resource and Environmental Engineering Optional for Mining Engineering Major, ≥10 credits School of Chemistry and Chemical Engineering School of Resource and Environmental Engineering Optional for Mineral Processing Engineering Major, ≥10 credits Courses Courses 19BSY0701 Numerical Analysis 16 1 1 18SY01101 Safety Risk Evaluation 40 2.5 1 18SY01102 Mining Physical Model 32 2 2 18SY01103 Numerical Simulation 48 3 2 32 2 2 32 2 2 32 2 2 32 2 1 32 2 2 32 2 2 32 2 2 32 2 2 Reinforcement Techniques in Geotechnical Engineering New Techniques in Mining 15SY01106 Engineering Comprehensive Utilization of 15SY01110 Secondary Resources Mineral Processing Experiment 15SY01111 Technology Direct Reduction and Smelting 15SY01112 Reduction Advanced Mineral Extraction 15SY01113 Technology Mineral Analysis Testing 15SY01114 Technology Introduction to Mineral 15SY01115 Materials 15SY01105 Elective Specialized Courses 15SYJ0101 Research Proposal 1 Academic Communication, ≥6 times The mid-term progress report 15SYJ0103 and evaluation 15SYJ0102 research session College of Science School of Resource and Environmental Engineering Optional for Mining Engineering Major, ≥7 credits School of Resource and Environmental Engineering Optional for Mineral Processing Engineering Major, ≥7 credits School of Resource and Environmental Engineering 1 1 15SYJ0104 Dissertation 4 14 School of Resource and Environmental Engineering School of Resource and Environmental Engineering Compulsory 安全科学与工程博士研究生培养方案 （学科代码：0837 授 工学博士 学位） 一、培养目标 培养系统全面掌握安全科学与工程学科坚实宽广的基础理论和专门知识及相关学科知识；能运用现代 科学理论、实验手段和信息工具，独立从事安全科学与工程领域科学研究和独立担负专门技术工作，在本 学科有关理论和工程实际问题的研究中做出创造性成果的高层次人才。 二、研究方向 1. 金属矿山安全生产理论与技术 2. 工业通风除尘与职业危害控制 3. 冶金装备故障诊断与风险控制 4. 城市地下空间火灾动力学与防治 5. 冶金企业安全生产管理与风险评价 三、学习年限 本学科博士生的学习年限一般为 3-5 年。 四、学分要求 安全科学与工程博士研究生学分要求及学分分配表 ≥26 学分 总学分 公共必修课 6 学分 其中：汉语 4 学分，中国概况 2 学分 修课学分 ≥14 学分 公共选修课≥2 学分 学科基础课≥4 学分 专业选修课≥2 学分 开题报告 1 学分 研究环节 12 学分 学术交流 1 学分 论文中期进展报告及考核 1 学分 学位论文 9 学分 具体课程设置见课程计划表 15 五、培养要求 1.基本要求 全面系统掌握本学科的科学理论与技术及相关学科的理论基础，对本学科的发展历史、现状和前沿动 态有深入的了解，具备坚实的基础理论和系统宽广的专门知识。能运用现代科学理论和实验手段、计算机 应用技术和信息技术，创造性地进行本学科方向有关的理论和实际问题的研究。遵守学术道德规范，具有 强烈的事业心和责任感。至少掌握一门外国语，具备熟练阅读本专业的外文文献，进行国际学术交流的能 力。达到《中华人民共和国高等教育法》、《中华人民共和国学位条例》等的相关要求。 2.开题要求 以书面及答辩形式作为开题报告，记 1 学分，成绩按通过/不通过登记。 开题报告的内容主要包括：课题来源和选题依据，对国内外有关文献进行阅读、分析和总结（不少于 70 篇）；研究方案需阐明：研究目标、研究内容、关键问题与创新点、研究方法、技术路线、实验方案等； 研究工作计划及时间安排。 开题报告至少由 5 名具有副教授以上职称（其中至少 3 名教授）审定并签署意见，答辩环节至少有 5 名具有副教授以上职称（其中至少 3 名教授）参加，答辩未能通过者，必须重新做开题报告。 开题报告一般应为 0.8～1.5 万字。开题报告评审通过后，须完整填写《博士研究生开题报告》，交学 院留存，毕业时归入学位档案。 3.论文中期进展要求 必须以书面及答辩形式做论文研究中期进展报告，记 1 学分。 中期进展报告就课题的实验方法、数据、结果的可靠性、设计方案初步结论的正确性以及能否如期完 成学位论文工作等进行公开答辩，须有至少 5 名具有副教授以上职称（其中至少 3 名教授）或博士学位者 对中期报告进行考核，对存在的问题提出指导性建议。 中期考核通过后，须填写《博士生中期报告及综合考核表》交研究生院，复印件和书面开题报告交学 院留存。 4.参加学术活动要求 研究生须参加 9 次以上学术活动，记 1 学分。每次参加学术活动应有书面记录，做学术报告应有书面 材料，在申请学位前，经导师签字的书面记录交学院备案并记相应学分。 5.发表学术论文要求 按照《武汉科技大学博士、硕士研究生申请学位取得学术成果的规定》执行。 6.学位论文预答辩要求 研究生完成所有培养环节，满足发表学术论文要求，按照《武汉科技大学博士、硕士学位授予工作细 则》及《武汉科技大学研究生学位论文检测规定（试行）》等文件执行。 7.学位论文答辩要求 按照《武汉科技大学博士、硕士学位授予工作细则》及《武汉科技大学研究生学位论文检测规定（试 行）》等文件执行。 16 安全科学与工程博士研究生课程计划表 类别 课程 性质 课程编号 公共 必修 课 17BSA0601 学位 课 学科 基础 课 公共 课程名称 汉语 学时 学分 开课 学期 160 4 1 开课学院 文法与经济学院 必修 17BSA2101 中国概况 32 2 1 国际学院 19BD01101 近代分析测试技术 32 2 2 资源与环境工程学院 15BD01204 职业安全与卫生 32 2 1 资源与环境工程学院 19BC01201 安全科学前沿 32 2 2 资源与环境工程学院 15BD01202 气溶胶科学与技术* 32 2 1 资源与环境工程学院 15BD01203 采动灾害控制工程 32 2 1 资源与环境工程学院 20BS5100 1 6 0 2 国际学院 必修 19BSY2101 科学道德与学术论文 写作 来华留学的跨文化适 应 32 2 2 国际学院 必修 选修 选修 课 19BSY0701 数值分析 16 1 1 理学院 课 专业 选修 课 17BY01205 智能安全矿山 32 2 1 资源与环境工程学院 15BY01202 工业通风与防尘新进 展 32 2 1 资源与环境工程学院 15BYJ0101 开题报告 1 15BYJ0102 学术交流≥9 次 1 15BYJ0103 论文中期进展报告及 考核 1 资源与环境工程学院 15BYJ0104 学位论文 9 资源与环境工程学院 研究 环节 备注 17 ≥4 学分 ≥2 学分 资源与环境工程学院 必修 Educational Program for Doctoral Students of Safety Science and Engineering (Discipline Code: 0837 Conferred Degrees: Doctor of Engineering ) Ⅰ. Educational Objectives The program’s purpose is to educate high-caliber personnel with such abilities as: having a solid foundation of basic theories, and specialized and relevant knowledge in Safety Science and Engineering; conducting independent scientific research and undertaking specialized technical work in the field of Safety Science and Engineering with modern scientific theories, experimental equipment and information tools; and having made creative achievements in theoretical study and practical engineering work in this disciplinary domain. Ⅱ.Research Fields 1. Theory and technology of safety production in metal mines 2. Industrial ventilation and dust removal and occupational hazard control 3. Fault diagnosis and risk control of metallurgical equipment 4. Urban underground space fire dynamics and prevention technology 5. Safety management and risk assessment of metallurgical enterprises Ⅲ. Program Duration The duration of study for doctoral students normally ranges from 3 to 5 years. Ⅳ. Credit Requirements Credit Requirements and Allocation Instructions for Doctoral Students of Safety Science and Engineering Total Credits ≥26Credits Public Compulsory Courses total 6 credits, among which 4 credits are for Chinese Language, and 2 credits for A Course Credits Survey of China ≥14Credits Public Elective Courses≥2 credits Subject Basic Courses ≥4 credits Elective Specialized Courses ≥2 credits Research Session Thesis Proposal, 1 credit Credits Academic Communication, 1 credit Mid-term Progress Report and Thesis Assessment, 1 18 credit Dissertation, 9 credits Please refer to the attached Curriculum for specific course arrangements Ⅴ. Training Requirements 1. Basic Requirements Completely mastering scientific theories and technologies of the discipline and theoretical foundation of relevant disciplines. Having an in-depth understanding of the development history, status quo and leading edge of the discipline, and possessing solid basic theories and systematic and extensive expertise. Being able to conduct original studies both in theories and practice with modern scientific theories, experimental means, computer application technology and information technology. Complying with academic ethics, and having a strong sense of dedication and responsibility. Mastering at least one foreign language to read foreign professional literatures and conducting international academic exchanges. Meeting requirements of The Higher Education Law of the People's Republic of China and Regulations of the People's Republic of China on Academic Degrees. 2.Thesis Proposal Requirements Thesis proposal shall be presented in a written and oral defense form, counting 1 credit. Grades are either pass or fail. Contents of a thesis proposal shall include: the background and basis of the selected topic, a review of domestic and abroad literature with an analysis and a summary (no less than 70 articles); The research program should illustrate research objectives, content, key problems and innovation, research method, technical approach, and experiment means; and a research plan and a time schedule. A thesis proposal report shall be reviewed and commented by at least five associate professors and above titles (at least three of whom are professors). There should be at least five associate professors and above titles (at least three professors) attending the oral defense. If students failed the oral defense, the thesis proposals should be re-prepared. A thesis proposal normally ranges from 8000 to 15,000 words. When a proposal report is appraised and approved, a Doctoral Candidate’s Thesis Proposal Form shall be completed and submitted to one’s school and reserved in the degree achieves. 3.The Mid-term Progress Requirements for a Thesis The mid-term progress of a thesis shall be presented in a written and oral defense form, counting 1 credit. The mid-term progress report should be presented publicly around the validity of experiment methods, data, results, preliminary conclusion from the research approach, and whether the thesis can be completed on schedule. There should be at least five associate professors and above titles (at least three professors) or doctors attending the oral defense and providing advice for existing problems. Once the mid-term examination is passed, a Doctoral Student’s Mid-term Report and Comprehensive Assessment Form shall be completed and submitted to the Graduate School, and a copy of that and a written form of the original thesis proposal report shall be preserved by the school. 19 4. Requirements for Academic Activities A graduate student shall participate in at least nine academic activities, counting 1 credit. A written record shall be prepared for each academic activity and a written material shall be reserved for an academic presentation. The written record signed by the supervisor shall be submitted to the school to register credits before applying for a degree. 5. Academic Articles Publishing Requirements Follow the Provisions of Doctoral and Master Students of Wuhan University of Science and Technology Applying for a Degree and Gaining Academic Achievements. 6. Dissertation Pre-Defense Requirements A graduate student shall complete all training sessions, meet academic articles publishing requirement, and shall follow the Working Rules on Awarding Doctoral and Master Degrees of Wuhan University of Science and Technology, and the Graduate Student Dissertation Detection Rules of Wuhan University of Science and Technology (Trial). 7.Dissertation Defense Requirements Follow the Working Rules on Awarding Doctoral and Master Degrees of Wuhan University of Science and Technology, and Graduate Student Dissertation Detection Rules of Wuhan Technology (Trial), etc. 20 University of Science and Curriculum for Doctoral Students of Safety Science and Engineering Category Course Nature Course Code Public Compulsory Courses 17BSA0601 Degree Courses Subject Basic Courses Hour Credit Semester Chinese Language 160 4 1 School of Literature, Law and Economics 17BSA2101 A Survey of China 32 2 1 International School 19BD01101 Modern Analysis and Measurement Technology 32 2 2 School of Resource and Environmental Engineering 15BD01204 Occupational Safety and Hygiene 32 2 1 19BC01201 Advanced Safety Science and Technology 32 2 2 15BD01202 Aerosol Science and Technology 32 2 1 15BD01203 Mining Hazards Control Engineering 32 2 1 6 0 2 International School Compulsory 32 2 2 International School Compulsory College of Science 20BS51001 Selective Courses Course Name Scientific Ethics and Academic Journal Writing Cross-Culture Adaptation —Study in China Public Elective Courses 19BSY2101 19BSY0701 Numerical Analysis 16 1 1 Elective Specialized Courses 17BY01205 Intelligent Safety Mine 32 2 1 15BY01202 Development of Industrial Ventilation and Dust Proof 32 2 1 15BYJ0101 Thesis Proposal 1 15BYJ0102 Academic Activities ≥9 times 1 15BYJ0103 The Mid-term Progress Report and evaluation 1 15BYJ0104 Dissertation 9 Research Session 21 School School of Resource and Environmental Engineering Notes Compulsory ≥4 records School of Resource and Environmental Engineering School of Resource and Environmental Engineering School of Resource and Environmental Engineering School of Resource and Environmental Engineering School of Resource and Environmental Engineering ≥2 records Compulsory School of Resource and Environmental Engineering 安全科学与工程硕士研究生培养方案 （学科代码： 0837 授 工学硕士 学位） 一、培养目标 培养掌握安全科学与工程学科坚实的基础理论和系统的专门知识，具备运用计算机和先进测试手段的 能力，具有从事科学研究或独立担负专门技术工作的能力，了解学科现状、发展趋势及国际发展动态，在 本学科有关理论和工程实际问题的研究中取得成果的高层次人才。 二、研究方向 1. 金属矿山安全生产理论与技术 2. 工业通风除尘与职业危害控制 3. 冶金装备故障诊断与风险控制 4. 城市地下空间火灾动力学与防治 5. 冶金企业安全生产管理与风险评价 三、学习年限 全日制攻读学术型硕士学位的学习年限为 2-3 年。 四、学分要求 安全科学与工程学术硕士研究生学分要求及学分分配表 ≥32 学分 总学分 公共必修课≥6 学分 修课学分 ≥25 学分 公共选修课≥2 学分 学科基础课≥10 学分 专业选修课≥7 学分 开题报告 1 学分 研究环节 7 学分 学术交流 1 学分 论文中期进展报告 1 学分 学位论文 4 学分 具体课程设置见附表 五、研究环节与学位论文 1.培养基本要求 具有本学科坚实的基础理论和系统的专门知识，了解学科现状、发展趋势及国际发展动态。具备运用 22 计算机和先进测试手段的能力，具有从事科学研究或独立担负专门技术工作的能力。具有科学的世界观和 方法论，具备严谨的科研作风和良好的团队合作精神。至少熟练掌握一门外国语，具备阅读本专业外文文 献的能力。达到《中华人民共和国高等教育法》、《中华人民共和国学位条例》等的相关要求。 2.开题要求 以书面及答辩形式就论文开题作报告，记 1 学分。 开题报告的内容一般应包括：（1）课题来源和选题依据，对国内外有关文献进行阅读、分析和总结 （不少于 40 篇，其中外文不少于 10 篇）；（2）研究方案，阐明研究目标、研究内容、关键问题与创新 点、研究方法、技术路线、实验方案等；（3）研究工作基础，说明具备的研究条件、研究过程中可能遇 到的困难和问题及其可能的解决办法和措施；（4）研究工作计划及时间安排。 开题报告须有至少 5 名具有副教授以上职称或博士学位者审定并签署意见，答辩环节至少有 5 名具有 副教授以上职称或博士学位者参加，答辩未能通过者，必须重新做开题报告。 书面开题报告一般应为 0.5～1.0 万字。开题报告评审答辩通过后，须完整填写《硕士研究生开题报 告》，交学院留存，毕业时归入学位档案。 3.参加学术活动要求 研究生须参加 6 次以上学术活动，记 1 学分。每次参加学术活动应有书面记录，做学术报告应有书面 材料，在申请学位前，经导师签字的书面记录交学院备案并记相应学分。 4.学位论文答辩要求 研究生完成所有培养环节，学位论文的相关要求参照《武汉科技大学博士、硕士研究生申请学位取得 学术成果的规定》、《武汉科技大学博士、硕士学位授予工作细则》及《武汉科技大学研究生学位论文检 测规定（试行）》等文件执行。 23 安全科学与工程硕士研究生课程计划表 类别 课程 性质 课程编号 公共 17BSA0601 必修课 学科 基础课 学 学时 学分 开课 学期 汉语 160 4 1 文法与经济学院 17BSA2101 中国概况 32 2 1 国际学院 19SC01201 安全科技发展动态 16 1 1 资源与环境工程学院 18SD01201 事故应急管理 40 2.5 1 资源与环境工程学院 18SY01101 安全风险评价 40 2.5 1 资源与环境工程学院 18SD01202 职业安全健康 40 2.5 1 资源与环境工程学院 18SD01104 矿山安全 40 2.5 2 资源与环境工程学院 15SY22109 现代仪器分析 32 2 2 化学与化工学院 课程名称 开课学院 备注 公共 必修 ≥10 学分 公共 19BSY2101 科学道德与学术论 文写作 来华留学的跨文化 适应 选修课 19BSY0701 数值分析 16 1 1 理学院 18SY01103 数值仿真 48 3 2 资源与环境工程学院 18SD01103 矿山地质学 32 2 2 资源与环境工程学院 专业 15SY01206 防排烟理论与技术 32 2 1 资源与环境工程学院 ≥7 学 选修课 15SY01107 矿山安全技术 32 2 2 资源与环境工程学院 分 15SY01204 气溶胶力学 32 2 2 资源与环境工程学院 20SY01203 安全工程概论 32 2 1 资源与环境工程学院 15SYJ0101 开题报告 1 资源与环境工程学院 15SYJ0102 学术交流≥6 次 1 资源与环境工程学院 15SYJ0103 论文中期进展报告 及考核 1 资源与环境工程学院 15SYJ0104 学位论文 4 资源与环境工程学院 位 20BS51001 课 研究 环节 24 6 0 2 国际学院 必修 32 2 2 国际学院 必修 必修 Educational Program for Master Students of Safety Science and Engineering (Discipline Code: 0837 Conferred Degrees:Master of Engineering ) Ⅰ. Educational Objectives The program’s purpose is to educate high-caliber personnel with such abilities as: having a solid foundation of basic theories and systematically specialized knowledge in the Safety Science and Engineering discipline; having the ability to work with computer and advanced experimental techniques; conducting independent scientific research or undertaking specialized technical work; understanding the status quo, development trends and frontier dynamics of the discipline; and having made achievements in theoretical study and practical engineering work in this disciplinary domain. Ⅱ. Research Fields 1. Theory and technology of safety production in metal mines 2. Industrial ventilation and dust removal and occupational hazard control 3. Fault diagnosis and risk control of metallurgical equipment 4. Urban underground space fire dynamics and prevention technology 5. Safety management and risk assessment of metallurgical enterprises Ⅲ. Program Duration The duration of study for full-time master students (academic) normally ranges from 2 to 3 years. Ⅳ. Credit Requirements Credit Requirements and Allocation Instructions for Academic Master Students of Safety Science and Engineering Total Credits ≥32credits Public Compulsory Courses ≥6 credits, Course Credits ≥25credits Public Elective Courses≥2 credits Subject Basic Courses ≥ 10 credits Elective Specialized Courses ≥ 7 credits Thesis Proposal, 1 credit Research Session 7credits Academic communication, 1 credit Mid-term Progress Report, 1 credit Degree Thesis, 4 credits Please refer to the attached Curriculum for specific course arrangements 25 Ⅴ. Research and dissertation 1. Basic Requirements Possessing a solid foundation of basic theories and systematically specialized knowledge of the subject; being able to work with computers and advanced experimental techniques; having the ability to independently conduct scientific research or undertake specialized technical work; possessing a scientific world outlook and methodology with a rigorous research style and teamwork spirit; Mastering at least one foreign language to read foreign professional literatures; and meeting requirements of The Higher Education Law of the People's Republic of China and Regulations of the People's Republic of China on Academic Degrees. 2. Thesis Proposal Requirements Thesis proposal shall be presented in a written and oral defense form, counting 1 credit. Contents of a thesis proposal shall include: (1) the background and basis of the selected topic, and a review of domestic and abroad literature with an analysis and a summary (no less than 40 articles including at least 10 foreign language articles); (2) a research program with an illustration of research objectives, content, key problems, innovation points, research method, technical approach, experiment means, etc. (3) the research foundation illustrating existing research condition, and possible difficulties, problems, and their possible solutions and measures during the research process; (4) a research plan and a time schedule. A thesis proposal report shall be reviewed and commented by at least five associate professors and above titles or doctors. There should be at least five (associate) professors or doctors attending the oral defense. If students failed the oral defense, the thesis proposals should be re-prepared. A thesis proposal normally ranges from 5000 to 10,000 words. When a proposal report is appraised and approved, a Master Candidate’s Thesis Proposal Form shall be completed and submitted to one’s school and reserved in the degree achieves. 3. Requirements for Academic Activities A graduate student shall participate in at least six academic activities, counting 1 credit. A written record shall be prepared for each academic activity and a written material shall be kept for an academic presentation. The written record signed by the supervisor shall be submitted to the school to register credits before applying for a degree. 4.Dissertation Defense Requirements A graduate student shall complete all training sessions, and shall follow the Provisions of Doctoral and Master Students of Wuhan University of Science and Technology Applying for a Degree and Gaining Academic Achievements, Working Rules on Awarding Doctoral and Master Degrees of Wuhan University of Science and Technology, and the Graduate Student Dissertation Detection Rules of Wuhan University of Science and Technology (Trial). 26 Curriculum for Master Students of Safety Science and Engineering Category Course Nature Course Code Public Compulsory Courses 17BSA0601 17BSA2101 19SC01201 18SD01201 18SY01101 Subject Basic Courses Degree Courses Elective Specialized Courses Hour Credit Semester School Chinese Language 160 4 1 School of Literature, Law and Economics A Survey of China 32 2 1 International School 16 1 1 40 2.5 1 40 2.5 1 Developments in Safety Science and Technolog Accident/Incident Emergency Mangement Safety Risk Evaluation School of Resource and Environmental Engineering Notes Public Compulsory ≥10 records 18SD01202 Occupational Safety and Health 40 2.5 1 18SD01104 Mine Safety 40 2.5 2 15SY22109 Modern Instrumental Analysis 32 2 2 School of Chemistry and Chemical Engineering 6 0 2 International School Compulsory 32 2 2 International School Compulsory College of Science 20BS51001 Public Elective Courses Course Name 19BSY2101 Scientific Ethics and Academic Journal Writing Cross-Culture Adaptation —Study in China 19BSY0701 Numerical Analysis 16 1 1 18SY01103 Numerical Simulation 48 3 2 18SD01103 Mining Geology 32 2 2 15SY01206 Theory and Technology of Smoke Control 32 2 1 15SY01107 Mine Safety Technology 32 2 2 15SY01204 Aerosol Dynamics 32 2 2 27 School of Resource and Environmental Engineering ≥7 records 20SY01203 Introduction to Safety Engineering 15SYJ0101 Thesis Proposal 1 15SYJ0102 Academic Activities ≥6 times 1 15SYJ0103 The mid-term progress report and evaluation 1 15SYJ0104 Dissertation 4 Research Session 32 28 2 1 School of Resource and Environmental Engineering Compulsory 材料科学与工程博士研究生培养方案 （代码：0805 授 工学博士 学位） 一、培养目标 1. 掌握坚实宽广的材料科学与工程领域基础理论和系统深入的专业知识，熟悉本学科前沿动态和新型 材料设计、制备、加工和测试分析技术； 2. 具备独立从事材料科学与工程领域的研究的能力，在本学科或专门技术上做出创造性的成果； 3. 熟练掌握一门外国语，具备听、说、读、写能力。 二、研究方向 1. 先进耐火材料设计与制备 2. 新型无机非金属材料 3. 新型钢铁材料 4. 材料表界面与功能材料 5. 材料加工过程组织及性能控制 6. 材料成型过程建模及控制 三、学习年限 全日制博士研究生，学制 3 年，学习年限一般为 3～5 年。 四、学分要求 材料科学与工程博士研究生学分要求及学分分配表 ≥26 学分 总学分 公共必修课 6 学分 其中：汉语 4 学分，中国概况 2 学分 修课学分 ≥14 学分 公共选修课≥2 学分 学科基础课≥4 学分 专业选修课≥2 学分 开题报告 1 学分 研究环节 12 学分 学术交流 1 学分 论文中期进展报告及考核 1 学分 学位论文 9 学分 具体课程设置见课程计划表 29 五、本学科对博士研究生培养提出的具体要求 1.培养基本要求 研究生培养采取导师负责、导师指导团队协助的培养方式。导师负责指导研究生制定个人培养计划、 撰写开题报告和学位论文、开展学术（科学）研究、组织学术交流、并召集指导团队对研究生进行指导等。 导师指导团队中至少有两名专家应该具有博士导师资格，主要协助进行研究生日常指导工作，参与研究生 培养的各个环节。 2.开题要求 研究生开题报告的要求参见 《武汉科技大学开题报告管理细则》。要求修满课程规定的学分和科目 以后，《选题报告》经过导师审核，认为已经达到《选题报告》的要求后，向导师所在系申请进行《选题 报告》的评审，一般在第 3 学期内进行。由导师所在系组织专门的评审小组，评审小组由五名以上的具有 高级技术职称的有关人员组成。由博士生向评审小组作选题报告，时间约 40 分钟。评审小组根据其书面 质量、口头报告质量和回答问题情况，填写评审意见和成绩。 3.论文中期进展要求 在通过《选题报告》评审 6 个月以后，《中期研究报告》经过导师审核，认为已经达到《中期研究报 告》的要求后，向导师所在系申请进行《中期研究报告》的评审，一般在第 4 或第 5 学期内进行。由导师 所在系组织专门的评审小组，评审小组由五名以上的具有高级技术职称的有关人员组成。评审小组根据其 书面质量、口头报告质量和回答问题情况，填写评审意见和成绩。中期研究报告通过者，继续进行论文工 作。未通过者可在 6 个月内再补作一次中期研究报告，仍未通过者，不得继续进行论文工作，按肄业处理。 4.参加学术活动要求 博士研究生须参加 9 次以上学术活动。每次参加学术活动应有书面记录，做学术报告应有书面材料， 在申请学位前交学院备案并记相应学分。 5.发表学术论文要求 学习期间，发表学术论文数量和级别应符合学校相关规定。 6.学位论文预答辩要求 所有博士生申请博士学位前，均需进行博士学位论文预答辩，具体执行应按照学校博士学位论文预答 辩暂行办法来执行。 7.学位论文答辩要求 博士研究生需要在论文答辩前完成课程学分、开题报告、学术交流、论文中期考核、论文写作等方面 的要求。完成所有要求后方可申请正式的论文答辩，有关博士研究生答辩相关政策按照学校相关规定来执 行。 30 材料科学与工程博士研究生课程计划表 类别 课程 性质 课程编号 学时 学分 开课 学期 课程名称 17BSA0601 汉语 公共 必修课 17BSA2101 中国概况 备注 160 4 1 文法与经济学院 32 2 1 国际学院 15BD02101 材料科学与工程前沿 64 4 1 材料与冶金学院 必修 20BS51001 科学道德与学术论文写作 6 0 2 国际学院 必修 19BSY2101 来华留学的跨文化适应 32 2 2 国际学院 必修 选修课 19BSY0701 数值分析 16 1 1 理学院 专业 15BY02102 材料科学与工程选论 选修课 48 3 2 材料与冶金学院 学位课 学科 基础课 公共 选修课 开课学院 必修 15BYJ0201 开题报告 1 材料与冶金学院 研究 15BYJ0202 学术交流≥9 次 1 材料与冶金学院 环节 15BYJ0203 论文中期进展报告及考核 1 材料与冶金学院 15BYJ0204 学位论文 9 材料与冶金学院 选修 必修 31 Educational Program for Doctoral Students of Materials Science and Engineering （Discipline Code：0805 Conferred Degrees: Doctor of Engineering） Ⅰ. Educational Objectives This program aims to develop talented individuals who can display the following abilities: 1. To grasp solid and extensive basic theories and a strong fundamental knowledge of Materials Science & Engineering, and to know well about current development of the discipline and the technology of design, preparation, process and test & analysis of new materials; 2. To have the ability to conduct advanced research on Materials Science & Engineering, and to apply this knowledge and make creative achievements in Materials Science & Engineering; 3. To have a good command of a foreign language with the ability of listening, speaking, reading and writing. Ⅱ. Research Fields 1. Design and Preparation of Advanced Refractories 2. New Inorganic Non-metallic Materials 3. New Iron and Steel Materials 4. Material Interface and Functional Materials 5. Microstructure and Performance Control of Materials Processing 6. Modeling and Control of Material Forming Process Ⅲ. Program Duration Schooling of full-time doctoral candidate lasts 3 years and the duration of schooling is usually 3-5 years. Ⅳ. Credits and Requirements Credit Requirements for PhD student of Material Science and Engineering Total Credits ≥26credits Common General Courses：6 credits （Chinese Language, 4 credits，A Survey of China, 2 credits） Courses ≥12credits Public Elective Courses≥2 credits Required Departmental Core Subjects ≥ 4 credits Rrestricted Electives ≥ 2 credits Research stage Research proposal, 1 credits 12credits Seminar, 1 credits Thesis mid-term report, 1 credits PhD thesis, 9 credits Please refer to the attached Curriculum for specific course arrangements Ⅴ. Specific Requirements for PHD Students 5.1. Basic requirements for PHD Students 32 The training mode of doctoral candidate is for the supervisor to takes charge, while the supervisor team provides assistance. The supervisor is responsible for providing guidance for doctoral candidate to make personal training program, write thesis proposal and dissertation, make academic (scientific) research, and to organize academic exchange and for convening supervisor team for the guidance of the doctoral candidate. The supervisor team should have at least two experts qualified to be supervisor of doctoral candidate whose main task is to provide regular guidance for doctor candidate and participate in the whole process of training. 5.2. Research Proposal Requirement For requirements of thesis proposal of doctoral student, see Management Rules of Thesis Proposal in Wuhan University of Science and Technology. After completing all credit hours and required subjects, and getting the supervisor’s approval about the Topic Selection, the doctoral student can apply to the department of the supervisor for Topic Selection evaluation, which is supposed be held in the third semester. The special evaluation group of more than five members will be organized by the department of the supervisor, all of whom are senior professional title holders. The doctoral student should make presentation of the Topic Selection to the evaluation group, which will last about 40 minutes. The evaluation group will write down comments and grades according to the quality of writing, quality of oral presentation and ways of giving answers. . 5.3. Mid-term Research Report Requirement Six months after passing Topic Selection, with the Interim Research Report gets approved by supervisors and deemed to meet the demands, the doctoral student can apply to the department of the supervisor for Interim Research Report evaluation, which will be carried out in the fourth or fifth semester. The special evaluation group of more than five members will be organized by the department of the supervisor, all of whom are senior professional title holders. The evaluation group will write down comments and grades according to the quality of writing, quality of oral presentation and ways of giving answers. The one who passes interim research report presentation can enter into the stage of thesis work. And the one who fails in the evaluation will have a chance to do a supplementary presentation of interim research report in six months. If the presentation fails again, the doctoral student will not be allowed to enter into the stage of thesis writing and the student will be considered as one student who fails to finish school. 5.4 Requirement of Academic Activities Academic Activities: doctoral students need to participate in more than nine academic activities. There should be written records of participating in academic activities, and as for academic report, there should be also written materials, all of which should be presented to the Materials Science & Engineering school for one credit before applying for degrees. 5.5 Requirement of Papers The quantity and quality of published or accepted papers should fit with the relevant provisions of the university. 5.6 Pre defense Requirements for Doctoral Degree Application All doctoral candidates to apply for a doctoral degree are required to carry out a pre-defense of doctoral 33 dissertation, the implementation of which is subject to the Tentative Procedures for the Pre-defense of the Doctoral Dissertation of WUST. 5.7 Requirements of Doctoral Degree Defense Doctoral candidate need to complete the course credits, thesis writing, academic activities, practice and other aspects of the requirements before thesis defense. Those who have successfully passed their pre-defense can apply for formal thesis defense. For details of the specific doctoral dissertation review and related defense work, see the relevant provisions of the university. 34 Curriculum for Doctoral Students of Material Science and Engineering Type Course Type Common General courses Required courses Departmental Core Subjects Public Elective Elective Courses courses Restricted electives Research Course No. Course Name Class hours credit 160 17BSA0601 Chinese Language 4 semester College 1 Arts, law and Economics Note Required 17BSA2101 A Survey of China Latest Development in Materials and Engineering Scientific Ethics and Academic 20BS51001 Journal Writing Cross-Culture Adaptation —Study in 19BSY2101 China 15BD02101 19BSY0701 Numerical Analysis 15BY02102 Selected Lecture of Material Science and Engineering 32 2 1 International School 64 4 1 Materials and Metallurgy Required 6 0 2 International School Compulsory 32 2 2 International School Compulsory 16 1 1 College of Science 48 3 2 Materials and Metallurgy 15BYJ0201 Research proposal 1 Materials and Metallurgy 15BYJ0202 Seminar≥9 1 Materials and Metallurgy 15BYJ0203 Thesis mid-term report 1 Materials and Metallurgy 15BYJ0204 Thesis 9 Materials and Metallurgy 35 Electives Required 材料科学与工程硕士研究生培养方案 （代码：0805 授 工学硕士 学位） 一、培养目标 1. 掌握材料工程领域基础理论和系统深入的专业知识，熟悉本专业的学科前沿动态； 2. 掌握一门外语，并能较熟练地阅读专业文献资料和撰写论文； 3. 具备独立从事工程设计、工程实施、工程研究、工程开发、工程管理等能力； 4. 具有良好的职业道德和敬业精神。 二、研究方向 1.先进耐火材料设计与制备 2.新型无机非金属材料 3.材料表界面与功能材料 4.材料加工过程组织及性能控制 5.材料成型过程建模及控制 6.新型钢铁材料研究 三、学习年限 全日制攻读学术硕士学位研究生学制 3 年，学习年限一般为 2~3 年。 四、学分要求 材料科学与工程硕士研究生学分要求及学分分配表 ≥32 学分 总学分 公共必修课≥6 学分 修课学分 ≥25 学分 公共选修课≥2 学分 学科基础课≥10 学分 专业选修课≥7 学分 开题报告 1 学分 研究环节 7 学分 学术交流 1 学分 论文中期进展报告 1 学分 学位论文 4 学分 具体课程设置见附表 36 五、研究环节与学位论文 1.培养基本要求 研究生培养可采取导师负责、导师指导团队等培养方式。导师负责指导研究生制定个人培养计划、撰 写开题报告和学位论文、开展学术（科学）研究、组织学术交流、并召集指导团队对研究生进行指导等。 研究生导师指导团队一般有包括导师在内的具有副高级及以上职称的 3-5 名校内外专家组成。研究生导师 指导团队主要协助进行研究生日常指导工作，参与研究生培养的各个环节。 2.开题要求 研究生在学习期间阅读不少于 40 篇文献，其中国外文献不少于 1/3。研究方案应明确：研究意义、研 究内容、研究方法、研究工作的重点、研究创新、研究进度、预期研究成果和实验计划等。至少由五名教 授或副教授（材料科学与工程专业方向至少 3 人）组成开题报告答辩小组，如果答辩不通过，则需要重新 撰写开题报告，进行开题答辩。要求在第三学期完成开题报告。 3.参加学术活动要求 硕士研究生须参加 6 次以上学术活动。每次参加学术活动应有书面记录，做学术报告应有书面材料， 在申请学位前交学院备案并记相应学分。 4.学位论文答辩要求 至少发表一篇 C 级学术论文，研究生必须是论文的第一作者（或者导师第一作者，研究生第二作 者），第一单位应是武汉科技大学。 学位论文的质量应达到：选题具有实际意义和新颖性；了解和掌握所研究领域国内外的权威文献及进 展情况；在理论分析、测试技术、数据处理、仪器设备和工艺技术等某一方面具有新的见解或改进；达到 培养方案所要求的理论知识和实验技能，或分析和解决实际问题的能力；文字表述通顺、逻辑性强，公式、 图表、计量单位、引文等符合规范；具有严谨的学风和工作态度。硕士学位论文满足《武汉科技大学研究 生学位论文检测规定》要求。 37 材料科学与工程硕士研究生课程计划表 类别 课程 性质 课程编号 公共 17BSA0601 汉语 课程名称 学时 学分 4 1 文法与经济学院 32 2 1 国际学院 18SD02101 材料断裂力学 32 2 2 材料与冶金学院 15SD02103 材料制备技术 32 2 1 材料与冶金学院 15SD02104 材料热力学 32 2 2 材料与冶金学院 ≥10 学分 32 2 1 材料与冶金学院 18SD02102 材料连续腐蚀 32 2 2 材料与冶金学院 20BS51001 科学道德与学术论文写作 6 0 2 国际学院 必修 19BSY2101 来华留学的跨文化适应 32 2 2 国际学院 必修 16 1 1 理学院 15SY02110 计算材料学 32 2 2 材料与冶金学院 18SY02101 钢铁行业用耐火材料 32 2 2 材料与冶金学院 选修课 18SY02102 材料热机械应力模拟 32 2 1 材料与冶金学院 15SY02204 计算冶金学 32 2 1 材料与冶金学院 学 位 学科 基础课 15SD02111 材料测试与表征 公共 选修课 19BSY0701 数值分析 选 修 课 备注 160 必修课 17BSA2101 中国概况 课 开课 开课学院 学期 专业 必修 ≥ 7 学分 15SYJ0201 开题报告 1 材料与冶金学院 研究 15SYJ0202 学术交流≥6 次 1 材料与冶金学院 环节 15SYJ0203 论文中期进展报告 1 材料与冶金学院 15SYJ0204 学位论文 4 材料与冶金学院 38 必修 Educational Program for Master Students of Materials Science and Engineering （Code： 0805 Conferred Degrees: Master of Engineering） 1. Educational Objectives This program aims to develop talented individuals who can display the following abilities: 1. To grasp solid and extensive basic theories and a strong fundamental knowledge of Materials Science & Engineering, and to know well about current development of the discipline; 2. To have the ability to conduct researches on Materials Science & Engineering, and make creative achievements in Materials Science & Engineering; 3. To have the ability to work independently in the field of engineering design, project implementation, engineering research, and engineering development or project management; 4. To have a good command of a foreign language with the ability of listening, speaking, reading and writing. Ⅱ. Research Fields 1. Design and Preparation of Advanced Refractories 2. New Inorganic Non-metallic Materials 3. New Iron and Steel Materials 4. Material Interface and Functional Materials 5. Microstructure and Performance Control of Materials Processing 6. Modeling and Control of Material Forming Process Ⅲ. Program Duration Schooling of full-time master candidate lasts 3 years and the duration of schooling is usually 2-3 years. Ⅳ. Credits and Requirements Credit Requirements for Master student of Material Science and Engineering Total ≥32credits credits General Institute Requirement：6 credits ≥ 6 credits Courses ≥25credits Public Elective Courses≥2 credits Required Departmental Core Subjects ≥ 10credits Restricted Electives ≥ 7credits Research proposal, 1 credits Research 7credits Seminar, 1 credits Thesis mid-term report, 1 credits Thesis, 4 credits Please refer to the attached Curriculum for specific course arrangements 39 Ⅴ. Research and Dissertation 5.1 Basic requirement for master degree The training mode of master candidate is for the supervisor to takes charge, while the supervisor team provides assistance. The supervisor is responsible for providing guidance for the student to make personal training program, write thesis proposal and dissertation, make academic (scientific) research, and to organize academic exchange and for convening supervision team for the guidance of the student. The supervisor team should have at least two experts with the title of associate professor, whose main task is to provide regular guidance for the master candidate and participate in the whole process of training. 5.2 Research proposal requirement Graduate student should read no less than 40 literature items during the study period, of which foreign literature covers no less than 1/3. The master research proposal should clearly describe the significance of the research, research contents, research methods, key points in research job, innovation of research, schedule of research, expected results and experimental plan etc. At least five associate professors or professor (at least 3 members are from Material Science and Engineering) are required to form the defense panel for research proposal of master application. If the candidate cannot pass the defense, he or she is required to make a new research proposal. The research proposal should be applied in third term. 5.3 Requirements of Academic Activities The master student is required to attend at least 6 seminars before applying for master degree. 5.4 Requirements of doctoral degree defense At least one academic paper related to the dissertation content should be published or accepted by Class C core journal in China or international academic journals. Graduate student should be the first author of the published papers (or supervisor as the first author, graduate student as the second author) and the affiliation should be Wuhan University of Science and Technology. The requirements for the thesis: an innovative topic with practical significance; awareness about the authoritative literature and the new development of research topics, new ideas or improvements in the theoretical analysis, testing technique, data processing, instruments and equipment and crafts; acquisition of the theoretical knowledge and skills as well as the abilities for analysis and practical application required by the syllabus.The thesis must have correct argument, tight logic, smooth writing, in accordance with academic conventions concerning formula, charts, data, direct speech and measurement unit. The thesis must be written independently and follow the science ethic. The degree thesis must meet the demands of the the relevant provisions of the university on detection of "academic misconduct detection system (TMLC2)” . 40 Curriculum for Master Students of Material Science and Engineering Type Course Type Course No. Course Name Class hours credit semester 17BSA0601 Chinese Language Common General courses 17BSA2101 A Survey of China Required courses Departmental Core Subjects 160 4 1 Arts, law and Economics 32 2 1 International School 18SD02101 Fracture mechanics of materials 32 2 2 15SD02103 Processing for Materials 32 2 1 15SD02104 Materials Thermodynamics 32 2 2 15SD02111 Materials testing and characterization 32 2 1 18SD02102 Continuous corrosion of materials 32 2 2 Scientific Ethics and Academic Journal Writing 6 0 2 19BSY2101 Cross-Culture Adaptation —Study in China 32 2 2 International School 19BSY0701 Numerical Analysis 16 1 1 College of Science 15SY02110 Computational Materials Science 32 2 2 18SY02101 Refractories for iron and steel industry 32 2 2 Thermomechanical Stress Simulation of Materials 32 2 1 32 2 1 20BS51001 Public Elective Courses Elective courses Restricted electives 18SY02102 15SY02204 Numerical metallurgy Research College required Materials and Metallurgy ≥10 credits International School Materials and Metallurgy 15SYJ0201 Research proposal 1 Materials and Metallurgy 15SYJ0202 Seminar≥6 1 Materials and Metallurgy 15SYJ0203 Thesis mid-term report 1 Materials and Metallurgy 15SYJ0204 Thesis 4 Materials and Metallurgy 41 Note Compulsory Compulsory ≥ 7credits required 冶金工程博士研究生培养方案 （代码： 0806 授 工学博士 学位） 一、培养目标 1.在提取冶金、冶金物理化学、金属学等方面具备坚实、宽广的理论基础，并在所研究领域具有深入 系统的专门知识，对本学科的现状和发展趋势有深入的了解。 2.具有独立从事科学研究工作的能力。能有效地运用计算机、先进的实验技术和检测方法进行冶金新 工艺、新技术、新产品及相关理论方面的研究。 3.在科学或专门技术上做出创造性的成果。博士论文应做到在理论上有创见，方法上有创新或在应用 上有突破。 4.掌握一至二门外国语。其中第一外国语要求熟练地阅读本专业的外文资料，并且具有运用该外语进 行本专业科技论文写作及学术交流的能力；第二外国语要求具有阅读本专业外文资料的初步能力。 5.学位获得者诚实守信，治学严谨，遵守科学研究者的职业道德。能胜任高等学校、科研机构、企业 的教学、科研、工程设计等技术工作或高层次的管理工作。 二、研究方向 1.冶金过程数学物理模拟及控制 2.钢铁冶金新理论与工艺 3.有色冶金新理论与工艺 4.高温熔体物理化学 5.先进钢铁材料生产及性能控制 6.冶金资源综合利用与环保 三、学习年限 全日制博士研究生，学制 3 年，学习年限一般为 3～5 年 四、学分要求 冶金工程博士研究生学分要求及学分分配表 ≥26 学分 总学分 公共必修课 6 学分 其中：汉语 4 学分，中国概况 2 学分 修课学分 ≥14 学分 公共选修课≥2 学分 学科基础课≥4 学分 专业选修课≥2 学分 开题报告 1 学分 研究环节 12 学分 学术交流 1 学分 论文中期进展报告及考核 1 学分 学位论文 9 学分 具体课程设置见课程计划表 42 五、本学科对博士研究生培养提出的具体要求 1.培养基本要求 研究生培养采取导师负责、导师指导团队协助的培养方式。导师负责指导研究生制定个人培养计划、 撰写开题报告和学位论文、开展学术（科学）研究、组织学术交流、并召集指导团队对研究生进行指导等。 导师指导团队中至少有两名专家应该具有博士导师资格，主要协助进行研究生日常指导工作，参与研究生 培养的各个环节。 2.开题要求 研究生开题报告的要求参见 《武汉科技大学开题报告管理细则》。要求修满课程规定的学分和科目 以后，《选题报告》经过导师审核，认为已经达到《选题报告》的要求后，向导师所在系申请进行《选题 报告》的评审，一般在第 3 学期内进行。由导师所在系组织专门的评审小组，评审小组由五名以上的具有 高级技术职称的有关人员组成。由博士生向评审小组作选题报告，时间约 40 分钟。评审小组根据其书面 质量、口头报告质量和回答问题情况，填写评审意见和成绩。 3.论文中期进展要求 在通过《选题报告》评审 6 个月以后，《中期研究报告》经过导师审核，认为已经达到《中期研究报 告》的要求后，向导师所在系申请进行《中期研究报告》的评审，一般在第 4 或第 5 学期内进行。由导师 所在系组织专门的评审小组，评审小组由五名以上的具有高级技术职称的有关人员组成。评审小组根据其 书面质量、口头报告质量和回答问题情况，填写评审意见和成绩。中期研究报告通过者，继续进行论文工 作。未通过者可在 6 个月内再补作一次中期研究报告，仍未通过者，不得继续进行论文工作，按肄业处理。 4.参加学术活动要求 博士研究生须参加 9 次以上学术活动。每次参加学术活动应有书面记录，做学术报告应有书面材料， 在申请学位前交学院备案并记相应学分。 5.发表学术论文要求 学习期间，发表学术论文数量和级别应符合学校相关规定。 6.学位论文预答辩要求 所有博士生申请博士学位前，均需进行博士学位论文预答辩，具体执行应按照学校博士学位论文预答 辩暂行办法来执行。 7.学位论文答辩要求 研究生完成所有培养环节，学位论文的相关要求参照《武汉科技大学博士、硕士研究生申请学位取得 学术成果的规定》、《武汉科技大学博士、硕士学位授予工作细则》及《武汉科技大学研究生学位论文检 测规定（试行）》等文件执行。 43 冶金工程博士研究生课程计划表 类别 学 课程 性质 课程编号 公共 17BSA0601 汉语 学科 基础课 公共 选 修 课 学时 学分 开课学院 备注 4 1 文法与经济学院 32 2 1 国际学院 15BC02201 冶金过程理论 32 2 1 材料与冶金学院 15BD02201 冶金过程解析与模拟 32 2 1 材料与冶金学院 20BS51001 科学道德与学术论文写作 6 0 2 国际学院 必修 19BSY2101 来华留学的跨文化适应 32 2 2 国际学院 必修 16 1 1 理学院 32 2 1 材料与冶金学院 32 2 1 材料与冶金学院 选修课 19BSY0701 数值分析 专业 开课 学期 160 必修课 17BSA2101 中国概况 位 课 课程名称 15BY02201 冶金前沿技术 选修课 15BY02202 冶金流程工程学 ≥4 学分 ≥2 学分 15BYJ0201 开题报告 1 材料与冶金学院 研究 15BYJ0202 学术交流≥9 次 1 材料与冶金学院 环节 15BYJ0203 论文中期进展报告及考核 1 材料与冶金学院 15BYJ0204 学位论文 9 材料与冶金学院 44 必修 必修 Educational Program for Doctoral Students of Metallurgical Engineering (Discipline Code: 0806 Conferred Degrees: Doctor of Engineering ) Ⅰ. Educational Objectives This program aims to develop talented individuals who can display the following abilities: 1. To grasp solid and extensive basic theories and a strong fundamental knowledge about extraction metallurgy, physical chemistry of metallurgy, metallography; and to know well about current development of this discipline and the technology of design, preparation, process and test & analysis of new materials. 2. To have the ability to conduct advanced researches on Metallurgical engineering, and to apply this knowledge and make creative achievements in Metallurgical engineering or expertise; to be able to effectively use computer, advanced experimental technology and testing methods to study the aspects of metallurgical new technology, new technology, new products and related theories. 3. To make creative achievement theoretically and technically. Doctoral dissertation should be innovated in theory, experiment method and application. 4 To Master one or two foreign languages. The first foreign language proficiency enables the student to have the skill to read the professional foreign language literature, and to write professional scientific papers and communicate with others on academic matters. For the second foreign language, the student should be able to read professional foreign language literature. 5 To be honest and trustworthy, to have rigorous scholarship, and to comply with the professional ethics of scientific researchers. The aim of this program is to educate students to be qualified for the job of teaching, scientific research, engineering design and high level management in higher school, research institutions and enterprises. Ⅱ. Research Fields 1. Mathematical and physical simulation and control of metallurgical processes 2. New theory and technology of ferrous metallurgy 3. New theory and technology of nonferrous metallurgy 4. Physical chemistry of High-temperature melts 5 .Production and performance control of advanced iron and steel materials 6. Comprehensive utilization of Metallurgical Resources and environmental protection Ⅲ. Program Duration Schooling of full-time doctoral candidate lasts 3 years and the duration of schooling is usually 3-5 years. Ⅳ. Credits and Requirements 45 Credit Requirements for PhD student of Metallurgical Engineering Total Credits ≥26credits Common General Courses：6 credits （Chinese Language, 4 credits，A Survey of China, 2 credits） Courses ≥12credits Public Elective Courses≥2 credits Required Departmental Core Subjects ≥ 4 credits Rrestricted Electives ≥ 2 credits Research proposal, 1 credits Research stage 12credits Seminar, 1 credits Thesis mid-term report, 1 credits PhD thesis, 9 credits Please refer to the attached Curriculum for specific course arrangements Ⅴ. Specific Requirements for PHD Students 1.Basic requirements for PHD Students The training mode of doctoral candidate is for the supervisor to takes charge, while the supervisor team provides assistance. The supervisor is responsible for providing guidance for doctoral candidate to make personal training program, write thesis proposal and dissertation, make academic (scientific) research, and to organize academic exchange and for convening supervisor team for the guidance of the doctoral candidate. The supervisor team should have at least two experts qualified to be supervisor of doctoral candidate whose main task is to provide regular guidance for doctor candidate and participate in the whole process of training 2.Research Proposal Requirement For requirements of thesis proposal of doctoral student, see Management Rules of Thesis Proposal in Wuhan University of Science and Technology. After completing all credit hours and required subjects, and getting the supervisor’s approval about the Topic Selection, the doctoral student can apply to the department of the supervisor for Topic Selection evaluation, which is supposed be held in the third semester. The special evaluation group of more than five members will be organized by the department of the supervisor, all of whom are senior professional title holders. The doctoral student should make presentation of the Topic Selection to the evaluation group, which will last about 40 minutes. The evaluation group will write down comments and grades according to the quality of writing, quality of oral presentation and ways of giving answers. 3.Mid-term Research Report Requirement Six months after passing Topic Selection, with the Interim Research Report gets approved by supervisors and deemed to meet the demands, the doctoral student can apply to the department of the supervisor for Interim Research Report evaluation, which will be carried out in the fourth or fifth semester. The special evaluation group of more than five members will be organized by the department of the supervisor, all of whom are senior 46 professional title holders. The evaluation group will write down comments and grades according to the quality of writing, quality of oral presentation and ways of giving answers. The one who passes interim research report presentation can enter into the stage of thesis work. And the one who fails in the evaluation will have a chance to do a supplementary presentation of interim research report in six months. If the presentation fails again, the doctoral student will not be allowed to enter into the stage of thesis writing and the student will be considered as one student who fails to finish school. 4 Requirement of Academic Activities Academic Activities: doctoral students need to participate in more than nine academic activities. There should be written records of participating in academic activities, and as for academic report, there should be also written materials, all of which should be presented to the Materials Science & Engineering school for one credit before applying for degrees. 5.Requirement of Papers The quantity and quality of published or accepted papers should fit with the relevant provisions of the university. 6.Pre defense Requirements for Doctoral Degree Application All doctoral candidates to apply for a doctoral degree are required to carry out a pre-defense of doctoral dissertation, the implementation of which is subject to the Tentative Procedures for the Pre-defense of the Doctoral Dissertation of WUST. 7.Requirements of Doctoral Degree Defense Doctoral candidate need to complete the course credits, thesis writing, academic activities, practice and other aspects of the requirements before thesis defense. Those who have successfully passed their pre-defense can apply for formal thesis defense. For details of the specific doctoral dissertation review and related defense work, see the relevant provisions of the university, such as Regulations on Applying for Degrees and Making Academy Achievements of Doctoral Candidates and Master Degree Candidates in Wuhan University of Science and Technology, Rules of Doctor’s & Master’s Degree Awarding in Wuhan University of Science and Technology, and (Trial) Regulations on Detection of Academic Dissertation of Graduate Student in Wuhan University of Science and Technology. 47 Curriculum for Doctoral Students of Metallurgical Engineering Type Course Type Common General courses Required courses Departmental Core Subjects Course No. Elective courses Restricted electives Research hours 17BSA0601 Chinese Language credit semester 1 College 160 4 17BSA2101 A Survey of China 32 2 1 International School 15BC02201 Metallurgical process theory 32 2 1 Materials and Metallurgy Note Arts, law and Economics required ≥4 credits 32 2 1 Materials and Metallurgy Scientific Ethics and Academic Journal Writing 6 0 2 International School Compulsory 19BSY2101 Cross-Culture Adaptation —Study in China 32 2 2 International School Compulsory 19BSY0701 Numerical Analysis 16 1 1 College of Science 15BY02201 Metallurgical cutting-edge technology 32 2 1 Materials and Metallurgy 15BD02201 Metallurgical process analysis and simulation 20BS51001 Public Elective Courses Course Name ≥2 credits 15BY02202 Metallurgical Process Engineering 32 2 1 Materials and Metallurgy 15BYJ0201 Research proposal 1 Materials and Metallurgy 15BYJ0202 Seminar≥9 1 Materials and Metallurgy 15BYJ0203 Thesis mid-term report 1 Materials and Metallurgy 15BYJ0204 Thesis 9 Materials and Metallurgy 48 Required 冶金工程硕士研究生培养方案 （代码：0806 授 工学硕士 学位） 一、培养目标 1. 冶金工程硕士学位获得者应在冶金学、冶金原理、冶金传输原理、金属学等方面掌握扎实的理论基 础和系统的专业知识，了解近代冶金学科的进展和动向。 2. 能运用计算机、先进实验技术和检测手段进行冶金工程领域的实验研究，具有从事科学研究工作或 独立承担专门技术工作能力。 3. 能运用第一外国语要求比较熟练地阅读本专业的外文资料。 4. 学位获得者诚实守信、治学严谨，遵守科学研究者的职业道德。硕士论文在理论上应有新见解，或 在方法上和技术上有改进。能胜任高等学校、科研机构、企业的教学、科研、工程设计等技术工作或高层 次的管理工作。 二、研究方向 1. 冶金过程数学物理模拟及控制 2. 钢铁冶金新理论与工艺 3. 有色冶金新理论与工艺 4. 高温熔体物理化学 5. 先进钢铁材料生产及性能控制 6. 冶金资源综合利用与环保 三、学习年限 全日制攻读学术硕士学位研究生学制 3 年，学习年限一般为 2~3 年。 四、学分要求 冶金工程硕士研究生学分要求及学分分配表 ≥32 学分 总学分 公共必修课≥6 学分 修课学分 ≥25 学分 公共选修课≥2 学分 学科基础课≥10 学分 专业选修课≥7 学分 开题报告 1 学分 研究环节 7 学分 学术交流 1 学分 论文中期进展报告 1 学分 学位论文 4 学分 具体课程设置见附表 49 五、研究环节与学位论文 1.培养基本要求 研究生培养采取导师负责、导师指导团队等培养方式。导师负责指导研究生制定个人培养计划、撰写 开题报告和学位论文、开展学术（科学）研究、组织学术交流、并召集指导团队对研究生进行指导等。研 究生导师指导团队一般有包括导师在内的具有副高级及以上职称的 3-5 名校内外专家组成。研究生导师指 导团队主要协助进行研究生日常指导工作，参与研究生培养的各个环节。 2.开题要求 研究生在学习期间阅读不少于 40 篇文献，其中国外文献不少于 1/3。研究方案应明确：研究意义、研 究内容、研究方法、研究工作的重点、研究创新、研究进度、预期研究成果和实验计划等。至少由五名教 授或副教授（材料科学与工程专业方向至少 3 人）组成开题报告答辩小组，如果答辩不通过，则需要重新 撰写开题报告，进行开题答辩。要求在第三学期完成开题报告。 3.参加学术活动要求 硕士研究生须参加 6 次以上学术活动。每次参加学术活动应有书面记录，做学术报告应有书面材料， 在申请学位前交学院备案并记相应学分。 4.学位论文答辩要求 至少发表一篇 C 级学术论文，研究生必须是论文的第一作者（或者导师第一作者，研究生第二作 者），第一单位应是武汉科技大学。 学位论文的质量应达到：选题具有实际意义和新颖性；了解和掌握所研究领域国内外的权威文献及进 展情况；在理论分析、测试技术、数据处理、仪器设备和工艺技术等某一方面具有新的见解或改进；达到 培养方案所要求的理论知识和实验技能，或分析和解决实际问题的能力；文字表述通顺、逻辑性强，公式、 图表、计量单位、引文等符合规范；具有严谨的学风和工作态度。硕士学位论文满足《武汉科技大学研究 生学位论文检测规定》要求。 50 冶金工程硕士研究生课程计划表 类别 课程 性质 课程编号 公共 17BSA0601 汉语 课程名称 学时 学分 备注 4 1 文法与经济学院 32 2 1 国际学院 17SY02201 钢铁冶金新技术 32 2 2 材料与冶金学院 15SD02103 材料制备技术 32 2 1 材料与冶金学院 学科 15SD02104 材料热力学 32 2 2 基础课 15SD02111 材料测试与表征 32 2 1 材料与冶金学院 18SD02102 材料连续腐蚀 32 2 2 材料与冶金学院 20BS51001 科学道德与学术论文写作 6 0 2 国际学院 必修 19BSY2101 来华留学的跨文化适应 32 2 2 国际学院 必修 16 1 1 理学院 15SY02110 计算材料学 32 2 2 材料与冶金学院 专业 18SY02101 钢铁行业用耐火材料 32 2 2 材料与冶金学院 选修课 18SY02102 材料热机械应力模拟 32 2 1 材料与冶金学院 15SY02204 计算冶金学 32 2 1 材料与冶金学院 15SYJ0201 开题报告 1 材料与冶金学院 研究 15SYJ0202 学术交流≥6 次 1 材料与冶金学院 环节 15SYJ0203 论文中期进展报告 1 材料与冶金学院 15SYJ0204 学位论文 4 材料与冶金学院 学 位 公共 选修课 19BSY0701 数值分析 选 修 课 开课学院 160 必修课 17BSA2101 中国概况 课 开课 学期 51 材料与冶金学院 必修 ≥10 学分 ≥7 学分 必修 Educational Program for Master Students of Metallurgical Engineering (Discipline Code: 0806 Conferred Degrees: Master of Engineering) Ⅰ. Educational Objectives This program aims to develop talented individuals who can display the following abilities: 1.Grasp solid and extensive basic theories and a strong fundamental knowledge about metallurgy theory, metallurgical transmission principle and metallography; and to know well about current development and future trends of this discipline 2.Have the ability to conduct researches on Metallurgical engineering, and to to do research and technical work independently; to be able to effectively use computer, advanced experimental technology and testing methods to study the aspects of metallurgical new technology, new technology, new products and related theories. 3.To Master a foreign language with listening, speaking, reading and writing skills. This language proficiency enables the student to read the professional foreign language literature 4.Be honest and trustworthy, to have rigorous scholarship, and to comply with the professional ethics of scientific researchers. The aim of this program is to educate students to be qualified for the job of teaching, scientific research, engineering design and high level management in higher school, research institutions and enterprises. Ⅱ. Research Fields 1. Design and Preparation of Advanced Refractories 2. New Inorganic Non-metallic Materials 3. New Iron and Steel Materials 4. Material Interface and Functional Materials 5. Microstructure and Performance Control of Materials Processing 6. Modeling and Control of Material Forming Process Ⅲ. Program Duration Schooling of full-time master candidate lasts 3 years and the duration of schooling is usually 2-3 years. Ⅳ. Credits and Requirements Credit Requirements for Master student of Metallurgical Engineering Total credits ≥32credits General Institute Requirement：6 credits ≥ 6 credits Courses ≥25credits Public Elective Courses≥2 credits Required Departmental Core Subjects ≥ 10credits Unrestricted Electives ≥ 7credits Research 7credits Research proposal, 1 credits 52 Seminar, 1 credits Thesis mid-term report, 1 credits PhD thesis, 4 credits Please refer to the attached Curriculum for specific course arrangements Ⅴ. Research and dissertation 5.1 Basic requirement for master degree The training mode of master candidate is for the supervisor to takes charge, while the supervisor team provides assistance. The supervisor is responsible for providing guidance for the student to make personal training program, write thesis proposal and dissertation, make academic (scientific) research, and to organize academic exchange and for convening supervision team for the guidance of the student. The supervisor team should have at least two experts with the title of associate professor, whose main task is to provide regular guidance for the master candidate and participate in the whole process of training. 5.2 Research proposal requirement Graduate student should read no less than 40 literature items during the study period, of which foreign literature covers no less than 1/3. The master research proposal should clearly describe the significance of the research, research contents, research methods, key points in research job, innovation of research, schedule of research, expected results and experimental plan etc. At least five associate professors or professor (at least 3 members are from Material Science and Engineering) are required to form the defense panel for research proposal of master application. If the candidate cannot pass the defense, he or she is required to make a new research proposal. The research proposal should be applied in third term. 5.3 Requirements of Academic Activities The master student is required to attend at least 6 seminars before applying for master degree. 5.4 Requirements of doctoral degree defense At least one academic paper related to the dissertation content should be published or accepted by Class C core journal in China or international academic journals. Graduate student should be the first author of the published papers (or supervisor as the first author, graduate student as the second author) and the affiliation should be Wuhan University of Science and Technology. The requirements for antithesis: an innovative topic with practical significance; awareness about the authoritative literature and the new development of research topics, new ideas or improvements in the theoretical analysis, testing technique, data processing, instruments and equipment and crafts; acquisition of the theoretical knowledge and skills as well as the abilities for analysis and practical application required by the thesis must have correct argument, tight logic, smooth writing, in accordance with academic conventions concerning formula, charts, data, direct speech and measurement unit. The thesis must be written independently and follow the science ethic. The degree thesis must meet the demands of the the relevant provisions of the university on detection of "academic misconduct detection system (TMLC2)”. 53 Curriculum for Master Students of Metallurgical Engineering Course Type Course Nature Common General courses Course Code Course Name Hours Credit Semester Elective courses Restricted electives Research Note 17BSA0601 Chinese Language 160 4 1 Arts, law and Economics 17BSA2101 A Survey of China 32 2 1 International School 17SY02201 New technologies on iron and steel metallurgy 32 2 2 Materials and Metallurgy 32 2 1 Materials and Metallurgy 32 2 2 Materials and Metallurgy 32 2 1 Materials and Metallurgy 18SD02102 Continuous corrosion of materials 32 2 2 Materials and Metallurgy 20BS51001 Scientific Ethics and Academic Journal Writing 6 0 2 International School Compulsory 19BSY2101 Cross-Culture Adaptation —Study in China 32 2 2 International School Compulsory 19BSY0701 Numerical Analysis 16 1 1 College of Science 15SY02110 Computational Materials Science 32 2 2 Materials and Metallurgy 18SY02101 Refractories for iron and steel industry 32 2 2 Materials and Metallurgy 18SY02102 Thermomechanical Stress Simulation of Materials 32 2 1 Materials and Metallurgy 15SY02204 Numerical metallurgy 32 2 1 Materials and Metallurgy 15SD02103 Processing for Materials Required courses Department 15SD02104 Materials Thermodynamics al Core Subjects 15SD02111 Materials testing and characterization Public Elective Courses School 15SYJ0201 Research proposal 1 Materials and Metallurgy 15SYJ0202 Seminar≥6 1 Materials and Metallurgy 15SYJ0203 Thesis mid-term report 1 Materials and Metallurgy 15SYJ0204 Thesis 4 Materials and Metallurgy 54 required ≥10credits ≥7credits required 机械工程博士研究生培养方案 （代码：0802 授 工学博士 学位） 一、学科简介 机械工程是以相关的自然科学和技术为理论基础，结合生产实践经验，研究各类机械在设计、制造、 运行和服务等全寿命周期中的理论和技术的工程学科。本学科主要包括 4 个学科方向：机械设计及理论、 机械制造及其自动化、机械电子工程和车辆工程。 本学科 1958 年开始以钢铁工业为主开展本科教育，是国家首批硕士学位授权单位，1998 年获批博士 学位授权单位。拥有 1 个机械工程一级学科博士学位授权点，1 个机械工程博士后科研流动站，1 个机械 工程一级学科硕士学位授权点，1 个机械专业学位类别。本学科是湖北省优势特色学科群牵头学科和湖北 省双一流建设学科，拥有冶金装备及其控制教育部重点实验室、机械传动与制造工程湖北省重点实验室、 智能制造装备湖北省协同创新中心、机器人与智能系统研究院等高水平科研平台。主要研究冶金装备超常 设计、流体动力学与系统控制、精密加工与智能制造、绿色制造与可持续制造和智能传感、监测与控制、 智能协作机器人系统等领域的基础问题、应用基础问题和应用问题，是人才培养、学科发展及解决工程实 际的重要基地。 二、培养目标 1. 树立正确的世界观、人生观、价值观，践行社会主义核心价值观，具有坚定的理想信念、高尚的道 德情操、高度的社会责任感，身心健康，综合素质高。 2. 掌握机械工程学科坚实宽广的基础理论和系统深入的专门知识，具有综合运用本学科的理论、方法 和技术手段，发现、提出、分析并解决科学前沿与工程技术问题的能力，在本学科或专门技术上做出创新 性的成果。 3. 熟悉本学科前沿的发展现状和趋势，具有前沿综合视野，具有学科交叉研究能力。 4. 具有国际视野和国际交流合作能力。 5. 具有良好的团队合作精神。 三、研究方向 本学位点涵盖机械设计及理论、机械电子工程、机械制造及自动化、车辆工程四个专业，主要的研究 方向包括： （1）冶金装备超常设计理论与技术 （2）流体动力学与机电系统控制技术 （3）精密加工与智能制造技术 （4）绿色制造理论与技术 （5）智能传感与精密测量技术 （6）智能协作机器人系统 四、培养方式 博士生培养采取理论学习和科学研究相结合的方式和方法，既要深入掌握基础理论和专门知识，又要 培养从事科学研究工作或独立担负专门技术工作的能力。 55 博士研究生的培养实行导师负责制，按导师个别指导或导师与指导小组集体培养相结合的指导方式。 博士研究生应在导师的指导下，学习有关课程，查阅文献资料，参加学术交流，确定具体课题，从事科学 研究，取得创造性成果。 五、学制及学习年限 全日制攻读博士学位研究生，学制 3 年，学习年限一般为 3~5 年；非全日制攻读博士学位研究生，学 习年限一般不超过 8 年。 六、课程体系及学分要求 机械工程专业博士研究生学分要求及学分分配表 ≥24 学分 总学分 公共必修课 6 学分 其中：汉语 4 学分，中国概况 2 学分 修课 ≥12 公共选修课≥2 学分 学科基础课≥3 学分 专业选修课≥1 学分 开题报告 1 学分 研究环节 12 学术交流 1 学分 论文中期进展报告及考核 1 学分 学位论文 9 学分 具体课程设置见课程计划表 七、研究环节 1. 开题报告：以书面及答辩形式就论文开题作报告，记 1 学分。 开题报告须有至少 5 名具有副教授以上职称的学者（其中同学科教授不少于 3 名）审定并签署意见， 答辩环节至少有 5 名具有副教授以上职称的学者（其中同学科教授不少于 3 名）参加，报告人就选题的意 义、研究内容、研究方法、拟解决的技术难题、创新之处、进度安排和预期效果以及拟采用的实验手段、 估计课题的工作量、所需经费等做出论述和答辩，由指导小组确定是否通过。开题报告一般应在第 3 学期 进行。 2. 中期进展报告及考核：博士研究生必须以书面及答辩形式做论文研究中期进展报告，记 1 学分。 至少 5 名具有副教授以上职称学者（其中至少 3 名教授）对中期报告进行考核，就课题的实验方法、 数据、结果的可靠性、设计方案初步结论的正确性以及能否如期完成学位论文工作等进行答辩，对存在的 问题提出指导性建议。中期考核合格者继续做博士学位论文，不合格者，应终止攻读博士学位，或令其退 学。 3. 学术交流：博士研究生须参加 10 次以上学术活动，其中必须参加国际学术会议 1 次以上，或者具 有国际（境外）短期合作研究或学习经历方可准予毕业。每次参加学术活动应有书面记录，做学术报告应 有书面材料，在申请学位前交学院备案并记相应学分。 八、学位论文 研究生完成所有培养环节，学位论文的相关要求参照《武汉科技大学博士、硕士研究生申请学位取得 56 学术成果的规定》以及《机械自动化学院研究生申请学位取得学术成果的补充规定》、《武汉科技大学博 士、硕士学位授予工作细则》及《武汉科技大学研究生学位论文检测规定（试行）》等文件执行。 57 机械工程博士研究生课程计划表 类别 课程 性质 公共 必修课 学 位 课 课程编号 课程名称 学时 学分 17BSA0601 汉语 160 4 开课 学期 开课学院 1 文法与经济学院 必修 17BSA2101 中国概况 32 2 1 国际学院 15BC03157 机械工程学科前沿 16 1 1 机械自动化学院 15BC04102 系统工程的优化方法 32 2 1 15BD03151 冶金设备研究方法论 24 1.5 2 信息科学与工程 ≥3 学 学院 分 机械自动化学院 15BD03152 非线性理论与应用 24 1.5 2 机械自动化学院 20BS51001 科学道德与学术论文写作 6 0 2 国际学院 必修 19BSY2101 来华留学的跨文化适应 32 2 2 国际学院 必修 19BSY0701 数值分析 16 1 1 理学院 17SX14019 第二外国语(德语上) 32 2 1 外国语学院 17SX14020 第二外国语(德语下) 32 2 2 外国语学院 15BY03153 现代设计与制造 16 1 1 机械自动化学院 15BY03155 机器人动力学及控制 16 1 1 机械自动化学院 ≥1 学 19BY03101 计算流体力学 II 16 1 1 机械自动化学院 19BY03102 现代传感技术 16 1 2 机械自动化学院 1 3 机械自动化学院 1 1-4 学科 基础课 公共 选修课 选 备注 修 课 专业 选修课 15BYJ0301 开题报告 研究 环节 15BYJ0302 学术交流 ≥10 次 分 必修 15BYJ0303 论文中期进展报告及考核 1 15BYJ0304 学位论文 9 58 5 机械自动化学院 机械自动化学院 Educational Program for Doctoral Students of Mechanical Engineering (Discipline Code: 0802 Conferred Degrees: Doctor of Engineering） Ⅰ. Discipline Introduction The discipline of mechanical engineering, which is based on theoretical basis of natural science and technology and combined with production practice experience, aims to study the theory and technology of all kinds of machinery in design, manufacture, operation and service life cycle. This discipline mainly includes four research fields: mechanical design and theory, mechanical manufacturing and automation, mechanical and electronic engineering and vehicle engineering. The undergraduate education of this discipline began in 1958, mainly in iron and steel industry. It is the earliest one subject of having right to confer master degree in China, and it began to confer doctoral degree in 1998. Currently, the discipline has 1 doctoral degree authorization center in mechanical engineering, 1 postdoctoral scientific research working station in mechanical engineering, 1 master's degree authorization center in mechanical engineering and 1 mechanical degree category. It is the leading discipline of the characteristic discipline group of Hubei province,also “ Double First-Class ” discipline in Hubei Province, and has several high level scientific research platforms such as Key Laboratory of Metallurgical Equipment and Control Technology of Ministry of Education, Hubei Key Laboratory of Mechanical Transmission and Manufacturing Engineering, Hubei Collaborative Innovation Center for Intelligent Manufacturing Equipment and Institute of Robotics and Intelligent Systems. The main research areas of the discipline include metallurgical equipment super-permanent design, Fluid Dynamics and System Control, precision machining and intelligent manufacturing, green manufacturing and sustainable manufacturing, intelligent sensing, monitoring and control, intelligent cooperative robot system, etc. It is becoming the important base for talents training, discipline development and solving engineering practice problems. Ⅱ Educational Objectives 1. Aiming at establishing correct world outlook, outlook on life and values, implementing socialist core values, obtaining firm ideals and beliefs, noble moral sentiment, strong sense of social responsibility, physical and mental heathy and comprehensive high quality 2. Having a firm and comprehensive grasp of basic theories and profound and systematic specialized knowledge in mechanical engineering, having the ability to discover, propose, analyze and solve scientific frontiers and engineering problems, making innovative achievements in the discipline or expertise concerned 3. Familiar with the development status and trend of the discipline concerned in the frontier fields, having frontier comprehensive vision, having the ability of multi-discipline research. 59 4. Having international vision and ability of international exchange and cooperation 5. Having good team spirit of cooperation Ⅲ. Research Fields The degree authorization center consists of Mechanical design and theories, Mechanical manufacture and automation, Mechanical-electronic engineering and Vehicle engineering, the main research directions of which include： （1）Design theory and technology of in-normal metallurgical equipment （2）Hydrodynamics and control technology of electro-mechanical system （3）Precision machining and intelligent manufacturing technology （4）Theory and technology of green manufacturing （5）Intelligent sensor and precise measurement technology （6）Intelligent cooperative robot system Ⅳ. Training Mode The training of doctoral students uses the method of theoretical study combined with scientific research. The students should not only master basic theory and expertise, but also have the ability to undertake scientific research or independently to engage in a special technical work. The training of doctoral students uses the system of tutor-responsible. The students are supervised by his /her supervisors alone or by the research group including the supervisor. Doctoral postgraduates should study relevant courses, consult literature, participate in academic exchanges, identify specific topics, engage in scientific research and achieve creative results under the guidance of their supervisors. Ⅴ. Program Duration For full-time doctoral students, three years of schooling, the duration of study normally ranges from 3 to 5 years. For part-time doctoral students, the length of study generally does not exceed 8 years. Ⅶ. Credit Requirements Credit requirements for PhD in Industrial Engineering Total Credits ≥24credits Public Compulsory Courses: 6 credits (4 credits for Chinese Language and 2 credits for Courses ≥12credits A Survey of China) Public Elective Courses≥2 credits Subject Basic Courses ≥3 credits Elective Specialized Courses ≥1 credits Research 12credits Thesis proposal: 1 credit Seminar: 1 credit 60 Mid-term Progress Report and Thesis Assessment: 1 credit Dissertation: 9 credits Please refer to the attached Curriculum for specific course arrangements Ⅷ. Specific Requirements for Doctoral Candidates in Mechanical Engineering 1. Thesis proposal: in written and oral presentation form, 1 credits A thesis proposal shall be reviewed and commented by at least five associate professors and above titles (at least three specializing in mechanical engineering). In oral defenses of the thesis proposal, the PhD student should clearly describe the following aspects of the research: purpose, subjects, methods, problems to be solved, key ideas of innovation, schedule, expected results, means of experiment, work hours, financial requirement etc. The committee members at least includes five associate professors and above titles (at least three specializing in mechanical engineering). A thesis proposal is usually made in the third semester. 2. Mid-term Progress Report and Examination: in written and oral presentation form, 1 credits The mid-term progress report should be presented around the validity of experiment methods, data, results, preliminary conclusion from the research approach, and whether the thesis can be completed on schedule. There should be at least five associate professors and above titles (at least three specializing in mechanical engineering) assessing the report and providing advice. Only the report is passed should the candidate be able to continue the research. 3. Seminar: A graduate student shall participate in at least 10 academic activities (at least one international conference or one short-term international (overseas) cooperative research or learning experience). Every academic activity should be recorded in writing, and the academic report should also be made in writing. These documents should be submitted to the school for record and credits before applying degree. Ⅸ. Dissertation Requirements of doctoral dissertations should refer to following documents as 《 Wuhan University Of Science And Technology regulations on Applying for Academic Degrees and Achieving Academic Achievements for Doctoral And Master Candidate 》 , 《 School of Machinery Automation Supplementary Provisions on Applying for Academic Degrees and Achieving Academic Achievements for Doctoral And Master Candidate》, 《 Wuhan University of Science and Technology Academic Degree-conferring Detailed 》 and 《 Wuhan University of Science and Technology Dissertations Detection Regulations》. 61 Curriculum for Doctoral Students of Mechanical Engineering Course Nature Course Type Degree Courses Course Code Course Name Hours Credits Season Public 17BSA0601 Chinese Language Compulsory Courses 17BSA2101 A Survey of China 160 4 1 School of Literature, Law and Economics 32 2 1 International School 15BC03157 Academic Foreland 16 1 1 School of Machinery and Automation 15BD03152 Nonlinear Theory and Application 24 1.5 2 School of Machinery and Automation 32 1 1 School of Information Science and Engineering 24 1.5 2 School of Machinery and Automation 6 0 2 International school Compulsory 32 2 2 International School Compulsory 16 1 1 College of Science 32 2 1 17SX14020 Second Foreign Language(GermanII) 32 2 2 15BY03153 Modern Design and Manufacturing 16 1 1 School of Machinery and Automation 15BY03155 Robot Dynamics and Control 16 1 1 School of Machinery and Automation 19BY03101 Computational Fluid Dynamics II 16 1 1 School of Machinery and Automation 19BY03102 Modern Sensing Technology 16 1 3 School of Machinery and Automation 1 3 School of Machinery and Automation 1 1-4 15BYJ0302 Mid-Term Evaluation 1 5 15BYJ0303 Dissertation 9 Optimization Methods for System Subject Basic 15BC04102 Engineering Courses Metallurgical Equipment Research 15BD03151 Methodology Scientific Ethics and Academic 20BS51001 Journal Writing Cross-Culture Adaptation —Study in 19BSY2101 China Public 19BSY0701 Numerical Analysis Elective Courses 17SX14019 Second Foreign Language(GermanI) Selective Courses Elective Specialized Courses 15BYJ0301 Thesis Proposal Research Research 15BYJ0301 Academic Communication ≧10 62 School Notes Compulsory ≥3 credits School of Foreign Languages School of Machinery and Automation School of Machinery and Automation ≥1 credit 机械工程硕士研究生培养方案 （学科代码：0802 授 工学硕士 学位） 一、学科简介 机械工程是以相关的自然科学和技术为理论基础，结合生产实践经验，研究各类机械在设计、制造、 运行和服务等全寿命周期中的理论和技术的工程学科。本学科主要包括 4 个学科方向：机械设计及理论、 机械制造及其自动化、机械电子工程和车辆工程。 本学科前身是 1952 年成立的原华中工学院冶金机械专业，1960 年整体划转我校，1981 年成为我国首 批硕士学位授权点设点单位，为国家和地方培养出以 2 位中国工程院院士为代表的大批优秀人才，为冶金 行业和国民经济建设、社会发展提供了有力的支撑。本学科拥有 1 个机械工程一级学科博士学位授权点， 2 个自主设置博士学位授权点，1 个机械工程博士后科研流动站，1 个机械工程一级学科硕士学位授权点， 1 个流体机械硕士学位授权点，1 个机械专业学位类别。本学科是湖北省优势特色学科群牵头学科和湖北 省双一流建设学科，拥有冶金装备及其控制教育部重点实验室、机械传动与制造工程湖北省重点实验室等 高水平的研究教学平台，是人才培养、学科发展及解决工程实际的重要基地，为推动我国地方经济建设与 发展做出重要贡献。 二、培养目标 1.树立正确的世界观、人生观、价值观，具有坚定的理想信念、高尚的道德情操、高度的社会责任感， 身心健康，综合素质高。 2.掌握机械工程学科坚实的基础理论和系统的专门知识，掌握本学科的现代实验方法和技能，了解学 科前沿，能够阅读本领域的外语文献资料，具有从事科学研究或独立担负专门技术工作的能力。有严谨的 科研作风，良好的合作精神和较强的学术交流能力。 3.在科学研究或专门工程技术工作中具有一定的组织和管理能力。 三、研究方向 本学位点涵盖机械设计及理论、机械电子工程、机械制造及自动化、车辆工程四个专业，主要的研究 方向包括： （1）冶金装备超常设计与现代汽车设计理论与技术 （2）流体动力学与机电系统控制技术 （3）精密加工与智能制造技术 （4）绿色制造理论与技术 （5）智能传感与精密测量技术 （6）智能协作机器人系统 （7）新能源汽车及节能减排技术 （8）智能网联汽车技术 四、培养方式 学术学位硕士研究生培养采取理论学习和科学研究相结合的方式和方法，既要使硕士生深入掌握基础 理论和专门知识，又要培养硕士生从事科学研究工作或独立担负专门技术工作的能力。 硕士生的培养实行导师负责制，导师应根据培养方案的要求和因材施教的原则，对每个硕士研究生制 定培养计划。导师要全面地关心硕士研究生的成长，做到既教书又育人。在培养过程中要注意课程学习和 科学研究并重。系统的研究生课程学习必须在学校进行，学位论文工作一般在学校进行，也可以根据实际 63 情况在研究机构或工厂、企业进行。 五、学制及学习年限 全日制攻读学术硕士学位研究生学制 3 年，学习年限一般为 2~3 年，最长不超过 5 年。 六、课程设置及学分要求 机械工程专业学术硕士研究生学分要求及学分分配表 ≥32 学分 总学分 公共必修课 6 学分 修课 ≥25 学分 公共选修课≥2 学分 学科基础课≥10 学分 选修课≥7 学分 开题报告 1 学分 科研 7 学分 学术交流 1 学分 中期报告 1 学分 学位论文 4 学分 七、研究环节 1. 开题报告：以书面及答辩形式就论文开题作报告，记 1 学分，成绩按通过/不通过登记。 开题报告的内容一般应包括：课题来源和选题依据，对国内外有关文献进行阅读、分析和总结；研究 方案，阐明研究目标、研究内容、关键问题与创新点、研究方法、技术路线、实验方案等；研究工作基础， 说明具备的研究条件、研究过程中可能遇到的困难和问题及其可能的解决办法和措施；研究工作计划及时 间安排。 开题报告须有至少 5 名具有副教授以上职称（其中至少 3 名教授）或博士学位者审定并签署意见，答 辩环节至少有 5 名具有副教授以上职称（其中至少 3 名教授）或博士学位者参加，答辩未能通过者，必须 重新做开题报告。 2. 论文中期进展报告：必须以书面及答辩形式做论文研究中期进展报告，记 1 学分。 至少 5 名具有副教授以上职称（其中至少 3 名教授）或博士学位者对中期报告进行考核，就课题的实 验方法、数据、结果的可靠性、设计方案初步结论的正确性以及能否如期完成学位论文工作等进行答辩， 对存在的问题提出指导性建议。 3. 学术交流：硕士研究生须参加 10 次以上学术活动，记 1 学分。每次参加学术活动应有书面记录， 做学术报告应有书面材料，并交导师签字认可，在申请学位前交学院备案并记相应学分。 八、学位论文 学位论文的相关要求参照《武汉科技大学博士、硕士研究生申请学位取得学术成果的规定》以及《机 械自动化学院研究生申请学位取得学术成果的补充规定》、《武汉科技大学博士、硕士学位授予工作细则》 及《武汉科技大学研究生学位论文检测规定（试行）》等文件执行。 64 机械工程专业硕士研究生课程计划表 类别 课程 课程编号 课程名称 性质 公共 17BSA0601 汉语 必修 课 17BSA2101 中国概况 学时 学分 160 4 开课 学期 1 开课学院 备注 文法与经济学院 必修 32 2 1 国际学院 15SA07003 矩阵分析 32 2 1 理学院 15SA03158 机械工程学科前沿 16 1 1 机械自动化学院 学科 15SY04105 智能控制系统 32 2 2 信息科学与工程学院 基础 15SD03126 结构分析的计算机方法 课 19SD03101 制造系统建模与仿真 32 2 2 机械自动化学院 24 1.5 1 机械自动化学院 15SD03130 机构综合与优化 16 2 2 机械自动化学院 20BS51001 科学道德与学术论文写作 6 0 2 国际学院 必修 公共 19BSY2101 来华留学的跨文化适应 32 2 2 国际学院 必修 选修课 19BSY0701 数值分析 16 1 1 理学院 15SY03132 弹塑性理论 32 2 1 机械自动化学院 15SY03136 机器视觉原理与应用 16 1 1 机械自动化学院 15SY03141 计算流体力学 32 2 1 机械自动化学院 15BY03155 机器人动力学及控制 16 1 1 机械自动化学院 17SY03151 传感器与驱动器 16 1 1 机械自动化学院 19SY03105 增材制造原理 24 1.5 1 机械自动化学院 19SY03107 Python 语言程序设计 24 1.5 1 机械自动化学院 20SY03101 气体动力学 32 2 2 机械自动化学院 15SYJ0301 开题报告 1 3 机械自动化学院 研究 15SYJ0302 学术交流≥6 次 1 1-4 机械自动化学院 环节 15SYJ0303 论文中期进展报告 1 3-4 机械自动化学院 15SYJ0304 学位论文 4 5-6 机械自动化学院 学 位 课 选 修 课 专业 选修 课 65 ≥10 学分 ≥7 学分 必修 Educational Program for Master Students of Mechanical Engineering (Discipline Code: 0802 Conferred Degrees: Master of Engineering） Ⅰ. Introduction The discipline of mechanical engineering, which is based on theoretical basis of natural science and technology and combined with production practice experience, aims to study the theory and technology of all kinds of machinery in design, manufacture, operation and service life cycle. This discipline mainly includes four research fields: mechanical design and theory, mechanical manufacturing and automation, mechanical and electronic engineering and vehicle engineering. The undergraduate education of this discipline began in 1958, mainly in iron and steel industry. It is the earliest one subject of having right to confer master degree in China, and it began to confer doctoral degree in 1998. Currently, the discipline has 1 doctoral degree authorization center in mechanical engineering, 1 postdoctoral scientific research working station in mechanical engineering, 1 master's degree authorization center in mechanical engineering. It is the leading discipline of Advantage and Characteristic Subject Group in Hubei province and the“Double First-Class” discipline in Hubei province, and has several high level scientific research platforms such as Key Laboratory of Metallurgical Equipment and Control Technology of Ministry of Education, Hubei Key Laboratory of Mechanical Transmission and Manufacturing Engineering. The main research areas of the discipline include metallurgical equipment super-permanent design, hydraulic drive and micro-fluids, precision machining and intelligent manufacturing, green manufacturing and sustainable manufacturing, intelligent sensing, monitoring and control, intelligent cooperative robot system, etc. It is becoming the important base for talents training, discipline development and solving engineering practice problems. Ⅱ. Educational Objectives 1. Aiming at establishing correct world outlook, outlook on life and values, obtaining firm ideals and beliefs, noble moral sentiment, strong sense of social responsibility, physical and mental heathy and comprehensive high quality. 2. Having a firm and comprehensive grasp of basic theories and profound and systematic specialized knowledge in mechanical engineering, mastering the modern experimental methods and skills of the discipline, understanding the frontier of discipline, having the ability to read foreign language literature in this field, having the ability to undertake scientific research or independently to engage in a special technical work, establishing strict research style, having good cooperation spirit and strong academic exchange ability. 3. Have certain organizational and managerial abilities in scientific research or specialized engineering and technical work. 66 Ⅲ. Research Fields The degree authorization center consists of Mechanical design and theories, Mechanical manufacture and automation, Mechanical-electronic engineering and Vehicle engineering, the main research directions of which include： （1）Design theory and technology of in-normal metallurgical equipment and modern automobile （2）Hydrodynamics and control technology of electro-mechanical system （3）Precision machining and intelligent manufacturing technology （4）Theory and technology of green manufacturing （5）Intelligent sensor and precise measurement technology （6）Intelligent cooperative robot system （7）New energy vehicles and energy saving and emission reduction technology （8）Intelligent Internet vehicle technology Ⅳ. Training Mode The training of master students uses the method of theoretical study combined with scientific research. The students should not only master basic theory and expertise, but also having the ability to undertake scientific research or independently to engage in a special technical work. The training of master students uses the system of tutor-responsible. The students are supervised by his /her supervisors alone or by the research group including the supervisor. Master students should study relevant courses, consult literature, participate in academic exchanges, identify specific topics, engage in scientific research and achieve creative results under the guidance of their supervisors. Ⅴ. Program Duration For full-time master students, three years of schooling, the duration of study normally ranges from 2 to 4 years. The length of study generally does not exceed 5 years Ⅶ. Credit Requirements Credit requirements for Master’s Degree in Mechanical Engineering Total credits ≥32credits Public Compulsory Courses ≥6 credits Courses ≥2credits Public Elective Courses≥2 credits Subject Basic Courses ≥ 10 credits Elective Specialized Courses ≥ 7 credits Thesis Proposal, 1 credit Research 7credits Academic communication, 1 credit Mid-term Progress Report, 1 credit Degree Thesis, 4 credits 67 Please refer to the attached Curriculum for specific course arrangements Ⅷ. Research Requirements for Master Degree Candidates in Mechanical Engineering 1. Thesis proposal: in written and oral presentation form, 1 credits The thesis proposal should include: topic origin and basis, domestic and foreign literature review, research scheme, research objectives, research contents, key issues and innovations, research methods, technical routes, experimental schemes, basis of work, research conditions, difficulties and problems that may be encountered in the process of research and possible solutions and measures, research plan and rime arrangement. A thesis proposal shall be reviewed and commented by at least five associate professors and above titles (at least three specializing in mechanical engineering). The defense committee should include at least five associate professors and above titles (at least three specializing in mechanical engineering). If a thesis proposal is not passed, the student has to make a new one. 2. Mid-term Progress Report and Examination: in written and oral presentation form, 1 credits. The mid-term progress report should be presented around the validity of experiment methods, data, results, preliminary conclusion from the research approach, and whether the thesis can be completed on schedule. There should be at least five associate professors and above titles (at least three specializing in mechanical engineering) assessing the report and providing advice. Only the report is passed should the candidate be able to continue the research. 3. Seminar: A graduate student shall participate in at least 10 academic activities Every academic activity should be recorded in writing. These documents should be submitted to the school for record and credits before applying degree. 68 Curriculum for Master Students of Mechanical Engineering Course Type Course Nature Public Compulsory Courses Degree Courses Subject Basic Courses Course Code Selective Courses Elective Specialized Courses Hours Credits Season School Notes 17BSA0601 Chinese Language 160 4 1 School of Literature, Law and Economics 17BSA2101 A Survey of China 32 2 1 International School 15SA07003 Matrix Analysis 32 2 1 College of Science 15SA07004 Numerical Analysis 32 2 1 College of Science 15SA03158 Academic Foreland 16 1 1 15SY04105 Intelligent Control System 32 2 2 15SD03126 Computer Methods of Structure Analysis 32 2 2 19SD03101 Manufacturing system modeling and simulation 24 1.5 1 15SD03130 Synthesis and Optimization 16 2 2 Scientific Ethics and Academic Journal Writing 6 0 2 International school Compulsory 19BSY2101 Cross-Culture Adaptation —Study in China 32 2 2 International School Compulsory 19BSY0701 Numerical Analysis 16 1 1 College of Science 15SY03132 Elastic-Plastic Theory 32 2 1 15SY03136 Principle and Application of Machine Vision 16 1 1 15SY03141 Computational Fluid Dynamics 32 2 1 15BY03155 Robot Dynamics and Control 16 1 1 20BS51001 Public Elective Courses Course Name 69 School of Machinery and Automation School of Information Science and Engineering Compulsory ≥10credits School of Machinery and Automation School of Machinery and Automation ≥7credits 17SY03151 Sensors and Actuators 16 1 1 19SY03105 Principle of additive manufacturing 24 1.5 1 19SY03107 Python Programming Language 24 1.5 1 20SY03101 Aerodynamics 32 2 2 1 3 15SYJ0301 Thesis Proposal 15SYJ0302 Academic communication ≧10 1 Research 15SYJ0303 Mid-Term Evaluation 1 15SYJ0304 Dissertation 4 15ST03101 Mechanical Design Complementary Course 15ST03102 Machinery Manufacturing 15ST03103 Fluid Mechanics and Hydraulic Transmission 70 School of Machinery and Automation School of Machinery 3-4 and Automation School of Machinery 5-6 and Automation School of Machinery and Automation School of Machinery and Automation School of Machinery and Automation Requirement Grade Only No Credit 控制科学与工程博士研究生培养方案 （学科代码： 0811 授 工学博士 学位） 一、培养目标 1. 具有活跃的学术思想、严密的逻辑思维和创新意识。 2. 具有独立从事本学科理论研究及高科技项目的研发能力，做出具有创造性的成果。 3. 具有批判性学习的能力，能胜任科研、教学和科研项目的技术管理工作。 二、研究方向 1. 控制理论与应用 2. 复杂工业过程控制及优化 3. 微光机电系统集成与测控技术 4. 状态监测与故障诊断 5. 多媒体信息处理与通信 6. 机器人与智能系统 三、学习年限 全日制攻读博士学位研究生，学制 3 年，学习年限一般为 3~5 年。 四、学分要求 控制科学与工程博士研究生学分要求及学分分配表 ≥26 学分 总学分 公共必修课 6 学分 其中：汉语 4 学分，中国概况 2 学分 修课学分 ≥14 学分 公共选修课≥2 学分 学科基础课≥4 学分 专业选修课≥2 学分 开题报告 1 学分 研究环节 12 学分 学术交流 1 学分 论文中期进展报告及考核 1 学分 学位论文 9 学分 具体课程设置见附表 71 五、具体要求 1.培养基本要求 1）具有严谨求实的科学态度、工作作风和高尚的职业道德，德、智、体全面发展； 2）具有本科学坚实宽广的理论基础，系统深入的专业知识； 3）具有独立从事本学科理论研究及高科技项目的研发创新能力，能独立承担和完成本学科的各类研 究课题，能胜任科研、教学和科研项目的技术管理工作。 2.开题要求 以书面及答辩形式作开题报告，记 1 学分，成绩按通过/不通过登记。 开题报告及答辩均须至少 5 名具有副教授以上职称或博士学位的老师（至少 3 名教授）审定及参加， 答辩未能通过者 3 个月后可再次申请。开题报告参考文献一般不少于 70 篇，且近五年内的文献不少于总 数的三分之一。开题工作原则上应于入学后第四学期结束前完成，且与论文答辩时间间隔不得少于 12 个 月。具体要求参照《武汉科技大学研究生学位论文开题报告管理办法》执行。 3.论文中期进展要求 以书面及答辩形式作论文研究中期进展报告，记 1 学分，成绩按通过/不通过登记。 至少 5 名具有副教授以上职称或博士学位的老师对中期报告进行考核。中期考核不合格者 6 个月后可 再次申请考核，中期考核与论文答辩的时间间隔不得少于 6 个月。 4.参加学术活动要求 博士研究生必须参加 15 次以上校内外学术交流，其中至少用外文作一次学术报告，记 1 学分，成绩按 通过/不通过登记。 5.发表学术论文要求 至少公开发表一篇与研究课题相关专业文章，且被 SCI 收录。 6.学位论文预答辩要求 参照《武汉科技大学博士学位论文预答辩暂行办法》。 7.学位论文答辩要求 博士研究生完成所有培养环节，学位论文的相关要求参照《武汉科技大学博士、硕士研究生申请学位 取得学术成果的规定》、《武汉科技大学博士、硕士学位授予工作细则》及《武汉科技大学研究生学位论 文检测规定（试行）》等文件执行。 72 控制科学与工程博士研究生课程计划表 类别 课程性质 公共 必修课 学 位 课 学科 基础课 公共 选修课 选 修 课 专业 选修课 课程编号 课程名称 学时 学分 17BSA0601 汉语 160 4 开课 学期 开课学院 1 文法与经济学院 备注 必修 17BSA2101 中国概况 32 2 1 19BC04101 泛函分析 32 2 1(3) 15BC04102 系统工程的优化方法 32 2 1 15BD04101 复杂系统理论与应用 32 2 1 国际学院 信息科学与工程 学院 ≥2 学分 信息科学与工程 学院 ≥2 学分 15BY04109 模式分析与机器视觉 32 2 2 20BS51001 科学道德与学术论文写作 6 0 2 国际学院 必修 19BSY2101 来华留学的跨文化适应 32 2 2 国际学院 必修 19BSY0701 数值分析 16 1 1 理学院 17SX14019 第二外国语(德语上) 32 2 1 外国语学院 17SX14020 第二外国语(德语下) 32 2 2 外国语学院 15BY04101 现代检测理论及应用 32 2 1 15BY04102 高级人工智能 32 2 1 15BY04103 多智能体系统理论 32 2 1 15BY04104 预测控制理论及应用 32 2 1 15BY04105 信息融合 32 2 2 15BY04106 智能机器人 32 2 2 15BY04107 过程监测与故障诊断 32 2 2 15BY04108 现代图像处理与分析 32 2 2 15BD04102 鲁棒控制理论 32 2 2 15BYJ0401 开题报告 1 4 15BYJ0402 学术交流≥15 次 1 1-5 研究环节 15BYJ0403 论文中期进展报告及考核 1 5 15BYJ0404 学位论文 9 6 73 信息科学与工程 学院 ≥2 学分 信息科学与工程 学院 必修 Educational Program for Doctoral Students of Control Science and Engineering (Discipline Code: 0811 Conferred Degrees: Doctor of Engineering ) Ⅰ. Educational Objectives 1. With active academic thinking, rigid logical thinking and innovative consciousness. 2. Have the ability to independently engage in theoretical research and high-tech projects in this field, and achieve creative results. 3. Have the ability to critically study and be competent for technical management of scientific research, teaching and research. Ⅱ. Research Fields 1. Control Theory and Application 2. Complex Industrial Process Modeling Control and Optimization 3. Integration, Measurement and Control Technology of Micro-opto-electro-mechanical System 4. Condition Monitoring and Faulting Diagnosis 5. Multimedia Information Procession and Communication 6. Robotics and Intelligent System Ⅲ. Program Duration The length of schooling for full-time Ph.D. candidates is 3 years and the duration of study is normally 3 to 5 years. Ⅳ. Credit Requirements Credit Requirement and Allocation for Doctoral Candidates of Control Science and Engineering Total Credits ≥26 credits Public compulsory courses =6 credits among which: Chinese Language= 4 credits, A Survey of Courses Credits ≥14 credits China=2 credits Public Elective Courses≥2 credits Subject Basic Courses≥4 credits Elective Specialized Courses≥2 credits 74 Research Proposal 1 credits Research 12 credits Session Academic Communication 1 credits Mid-term Progress Report and Thesis Assessment 1 credits Dissertation 9 credits Please refer to the attached Curriculum for specific course arrangements Ⅴ. Specific Requirements for Doctoral Candidates 1. Basic Requirements （1）With a rigorous and realistic scientific attitude and style of work, a strong professional ethics and a sound moral, intellectual and physical development； （ 2 ） Have a solid and broad theoretical foundation in this discipline, and a systematic and in-depth professional knowledge; （ 3 ） Have the ability to independently conduct theoretical research, undertake high-tech projects and complete all kinds of research projects in this discipline, be competent for scientific research, teaching and the technical management of scientific research projects. 2. Thesis Proposal Requirements Thesis proposal shall be presented in a written and oral defense form, counting 1 credit. Grades are either pass or fail. A thesis proposal report shall be reviewed and commented by at least five associate professors and above titles (at least three of whom are professors) or doctors. If the candidate fails, he may apply again in 3 months. The number of references should be not less than 70, of which at least 1/3 must be published in the recent five years. Report of research proposal should be completed before the end of the fourth semester, and at least 12 months before the defense. The specifications can be consulted in the relevant files of WUST. 3. Mid-term Evaluation Requirements The mid-term progress of a thesis shall be presented in a written and oral defense form, counting 1 credit. Grades are either pass or fail. There should be at least five associate professors and above titles (at least three professors) or doctors attending the mid-term report. Those who fail can apply in six months, and the interval between mid-term evaluation and oral defense shall not be less than 6 months. 4. Academic Communication Requirements Doctoral students must participate in academic exchanges on or off the campus for more than 15 times, including at least one academic report in foreign languages, which accounts for 1 credit, and the grades are either pass or fail. 5. Requirements for Academic Paper Publication Publish at least one academic article related to the research topic, which should be indexed by SCI. 75 6. Pre-defense Requirements Refer to the Interim Measures for the Preliminary Defense of the Doctoral Dissertation of Wuhan University of Science and Technology. 7. Defense Qualification Requirements A doctoral student shall complete all training sessions, and shall follow the Provisions of Doctoral and Master Students of Wuhan University of Science and Technology Applying for a Degree and Gaining Academic Achievements, Working Rules on Awarding Doctoral and Master Degrees of Wuhan University of Science and Technology, and the Graduate Student Dissertation Detection Rules of Wuhan University of Science and Technology (Trial). 76 Curriculum for Doctoral Students of Control Science and Engineering Category Course Nature Course Code Public Compulsory Courses Degree Courses Subject Basic Courses Course Name Hour Credit Semester 17BSA0601 Chinese Language 160 Electve Specialized Coursies School of Literature Law and Economics Compulsory 32 2 1 International School 19BC04101 Functional Analysis 32 2 1(3) ≥2 credits 15BC04102 Optimization Methods for System Engineering 32 2 1 School of Information Science and Engineering 15BD04101 Theory and Application of Complex System 32 2 1 ≥2 credits 32 2 2 School of Information Science and Engineering Scientific Ethics and Academic Journal Writing 6 0 2 International School Compulsory 19BSY2101 Cross-Culture Adaptation —Study in China 32 2 2 International School Compulsory 19BSY0701 Numerical Analysis 16 1 1 College of Science 17SX14019 Second Foreign Language(GermanI) 32 2 1 17SX14020 Second Foreign Language(GermanII) 32 2 2 15BY04101 Theory and Application of Modern Detection 32 2 1 15BY04102 Advanced Artificial Intelligence 32 2 1 20BS51001 Elective Courses 1 Notes 17BSA2101 A Survey of China 15BY04109 Pattern Analysis and Machine Vision Public Elective Courses 4 School 15BY04103 Theory of Multi-agent System 32 2 1 15BY04104 Theory and Application of Predictive Control 32 2 1 15BY04105 Information Fusion 32 2 2 77 School of Foreign Languages School of Information Science and Engineering ≥2 credits 15BY04106 Intelligent Robot 32 2 2 15BY04107 Process Monitoring and Fault Diagnosis 32 2 2 15BY04108 Modern Image Processing and Analysis 32 2 2 15BD04102 Theory of Robust Control 32 2 2 15BYJ0401 Research Proposal 1 3-4 15BYJ0402 Academic Communication 1 1-5 15BYJ0403 Mid-term Evaluation 1 5 15BYJ0404 Dissertation 9 6 Research Session 78 School of Information Science and Compulsory Engineering 控制科学与工程硕士研究生培养方案 （学科代码： 0811 授 工学硕士 学位） 一、培养目标 1. 培养从事控制科学与工程方面的研究、开发、教学、管理的高层次人才： 2. 具有高度的事业心和责任感，具有开放精神和团队精神，诚实守信，恪守学术道德规范。 3. 具有活跃学术思想、严密逻辑思维、一定创新意识和较强的基本实验技能； 4. 具有独立从事科学研究的能力。 二、研究方向 1. 控制理论与应用 2. 复杂工业过程建模控制及优化 3. 微光机电系统集成与测控技术 4. 状态监测与故障诊断 5. 机器人与智能系统 6. 多媒体技术 7. 现代网络通信技术 8. 嵌入式与电子系统集成 三、学习年限 全日制攻读学术型硕士学位的学习年限为 3 年。 四、学分要求 控制科学与控制工程学术硕士研究生学分要求及学分分配表 ≥32 学分 总学分 公共必修课=6 学分 修课学分 ≥25 学分 公共选修课≥2 学分 专业基础课≥10 学分 专业选修课≥7 学分 开题报告 1 学分 研究环节 7 学分 学术交流 1 学分 论文中期进展报告 1 学分 学位论文 4 学分 具体课程设置见附表 79 五、研究环节与学位论文 1. 培养基本要求 (1) 具有严谨求实与创新开拓的精神、具备理论研究与工程实践的能力； (2) 能完成系统设计与核心技术研发 ,具有硬件设计能力与程序开发能力； (3) 在国际会议或期刊上，至少公开发表一篇与研究课题相关专业文章。 2. 开题要求 以书面及答辩形式就论文选题作报告，记 1 学分，成绩按通过/不通过登记。 开题报告及答辩环节须有 3~5 名具有副教授以上职称或具有博士学位的老师审定、参加并签署意见。 开题报告的参考文献一般不少于 40 篇，其中近五年内的文献不少于文献总数的三分之一。 研究生开题报告原则上应在第三学期完成，特殊情况可推迟至第四学期。为保证有足够的论文工作时 间，提交开题报告与论文答辩的时间间隔不得少于 9 个月。 3.参加学术活动要求 学术交流为全日制学术型硕士研究生的必修环节，记 1 学分，成绩按通过/不通过登记。 硕士研究生必须参加 6 次以上学术交流，并提交 5000 字以上的行业前沿综述，交导师签字认可。 4.学位论文答辩要求 硕士研究生完成所有培养环节，学位论文的相关要求参照《武汉科技大学博士、硕士学位授予工作细 则》及《武汉科技大学研究生学位论文检测规定（试行）》等文件执行。 80 控制科学与工程硕士研究生课程计划表 类别 课程 性质 选 修 课 课程名称 学时 学分 开课 学期 开课学院 备注 17BSA0601 汉语 160 4 1 文法与经济学院 17BSA2101 中国概况 32 2 1 国际学院 15SA07003 矩阵分析 32 2 1 理学院 15SD04303 现代电路理论 32 2 1 15SC04102 线性系统理论 32 2 1 17SC04101 数字图像处理 32 2 1 15SD04102 模式识别 32 2 2 15SD04301 现代通信原理 32 2 1 15ZD04101 现代信号处理 32 2 2 15SY04103 时间序列综合与分析 32 2 2 17SC04102 运筹学 32 2 1 15SY04105 智能控制系统 32 2 2 20BS51001 科学道德与学术论文写作 6 0 2 国际学院 必修 公共 19BSY2101 来华留学的跨文化适应 32 2 2 国际学院 必修 选修课 19BSY0701 数值分析 16 1 1 理学院 17SY04101 现代检测技术及仪表 16 1 1 15SY04102 故障诊断方法与应用 32 2 1 15SY04106 网络化控制的理论与实现 32 2 2 15SY04107 机器人原理与应用 32 2 2 17SY04102 机器视觉原理与应用 32 2 2 15SY04303 现代网络技术 32 2 2 17SY04103 模糊数学及应用 16 1 1 15SD04302 数模混合集成系统设计 32 2 2 15SYJ0401 开题报告 公共 必修课 学 位 课 课程编号 学科 基础课 专业 选修课 研究 环节 必修 信息科学与工程 学院 ≥10 学分 信息科学与工程 学院 ≥7 学分 1 3-4 15SYJ0402 学术交流≥6 次 1 15SYJ0403 论文中期进展报告 1 1-5 信息科学与工程 学院 4-5 必修 15SYJ0404 学位论文 4 6 81 Educational Program for Master Students of Control Science and Engineering (Discipline Code: 0811 Conferred Degrees: Master of Engineering ) Ⅰ. Educational Objectives 1. To educate highly qualified engineering scholars in research and development, education and management in the field of control science and engineering: 2. With a high sense of professionalism and responsibility, open-mindedness and team spirit, being honest and trustworthy, and abide by academic ethics. 3. With active and strict logical thinking, sense of innovation and strong experimental skills; 4. With ability to work independently in scientific research. Ⅱ. Research Fields in Control Science and Engineering 1. Control Theory and Application 2. Complex Industrial Process Modeling Control and Optimization 3. Integration, Measurement and Control Technology of Micro-opto-electro-mechanical System 4. Condition Monitoring and Faulting Diagnosis 5. Robotics and Intelligent System 6. Multimedia Technology 7. Modern network Communication Technology 8. Integration of Embedded and Electronic System Ⅲ. Program Duration The length of schooling for full-time Master degree candidates is 3 years. Ⅳ. Credit Requirements Credit Requirement and Allocation for Master Degree Candidates of Control Science and Engineering Total Credits ≥32 credits Public compulsory courses =6 credits Courses Credits ≥25 credits Public Elective Courses≥2 credits Subject Basic Courses≥10 credits Elective Specialized Courses≥7 credits Research 7 credits Research Proposal 1 credits 82 Session Academic Communication 1 credits Mid-term Progress Report and Thesis Assessment 1 credits Dissertation 4 credits Please refer to the attached Curriculum for specific course arrangements Ⅴ. Research and dissertation 1. Basic Requirements (1) Being rigorous, realistic and innovative, and have the ability of doing theoretical research and engaged in engineering practice; (2) Able to complete system design and core technology research and development, with capabilities of hardware design and program development; (3) Publish at least one academic paper related to the research topic in the international conferences or journals. 2. Research Proposal Requirements Thesis proposal shall be presented in a written and oral defense form, counting 1 credit. Grades are either pass or fail. A thesis proposal report shall be reviewed and commented by at least five associate professors and above titles (at least three of whom are professors) or doctors. The number of references should be not less than 40, of which 1/3 must be published in the recent five years. Report of research proposal should be completed in the third semester, and in special circumstances, it can be postponed to the fourth semester. The interval between the report and the defense is at least 9 months. 3. Academic Communication Requirements Academic communication is compulsory for full-time academic master degree candidates, which accounts for 1 credit, and the grades are either pass or fail. Master degree candidates must participate in academic exchanges for more than 6 times, and submit a 5,000-plus word review of the frontiers in the discipline, signed and confirmed by the supervisor. 4. Defense Qualification Requirements A master degree candidate shall complete all training sessions, and shall follow the Working Rules on Awarding Doctoral and Master Degrees of Wuhan University of Science and Technology, and the Graduate Student Dissertation Detection Rules of Wuhan University of Science and Technology (Trial). 83 Curriculum for Master Students of Control Science and Engineering Category Course Nature Course Code Public Compulsory Courses Degree Courses Elective Courses Subject Basic Courses Public Elective Courses Course Name Hour Credit Semester School 17BSA0601 Chinese Language 160 4 1 School of Literature Law and Economics 17BSA2101 A Survey of China 32 2 1 International School 15SA07003 Matrix Analysis 32 2 1 School of Science 15SD04303 Modern Circuit Theory 32 2 1 15SC04102 Theory of Linear System 32 2 1 17SC04101 Digital Image Processing 32 2 1 15SD04102 Pattern Recognition 32 2 2 Notes Compulsory School of Information Science and Engineering ≥10 credits 15SD04301 Modern Communication Principles 32 2 1 15ZD04101 Modern Signal Processing 32 2 2 15SY04103 Synthesis and Analysis of Time Series 32 2 2 17SC04102 Operational Research 32 2 1 15SY04105 Intelligent Control System 32 2 2 20BS51001 Scientific Ethics and Academic Journal Writing 6 0 2 International School Compulsory 19BSY2101 Cross-Culture Adaptation —Study in China 32 2 2 International School Compulsory 19BSY0701 Numerical Analysis 16 1 1 College of Science 84 Elective Specialized Courses 17SY04101 Modern Detection Technology 16 1 1 15SY04102 Theory and Practice of Fault Diagnosis 32 2 1 15SY04106 Theory and Application of Networked Control 32 2 2 15SY04107 Principle and Application of Robot 32 2 2 17SY04102 Theory and Application of Machine Vision 32 2 2 15SY04303 Modern Network Technology 32 2 2 17SY04103 Fuzzy Mathematics and Its Application 16 1 1 15SD04302 Design of Mixed-Signal System 32 2 2 15SYJ0401 Research Proposal 1 3-4 15SYJ0402 Academic Communication 1 1-5 Research Session 15SYJ0403 Mid-term Evaluation 1 4-5 15SYJ0404 Dissertation 4 6 85 School of Information Science and Engineering ≥7 credits School of Information Science and Engineering School of Information Science and Engineering Compulsory 化学工程与技术博士研究生培养方案 （学科代码： 0817 授 工学博士 学位） 一、培养目标 本学科旨在培养留学生跟踪各种类型过程工业（特别是化学工业）化学与物理过程最新知识的能力， 满足现代化学工业对高端化学工程人才的需求。毕业生应具备坚实的理论基础和系统的专业知识，创新精 神和团队合作精神，还应具备胜任在现代化学工业及其相关领域从事开发、教育和管理的能力。 二、研究方向 1. 化学工程 2. 化学工艺 3. 生物化工 4. 应用化学 5. 工业催化 三、学习年限 全日制博士研究生，学制 3 年，学习年限一般为 3～5 年。 四、学分要求 化学工程与技术博士研究生学分要求及学分分配表 ≥26 学分 总学分 公共必修课程 为 6 学分，包括汉语(4 学 分)和中国概况 (2 学分) 课程学分 ≥14 学分 公共选修课≥2 学分 学科基础课≥ 4 学分 专业选修课≥2 学分 开题报告：1 学分 研究学分 ≥12 学分 学术交流：1 学分 论文中期进展报告及考核：1 学分 博士学位论文：9 学分 具体课程设置见课程计划表 五、本学科对博士研究生培养提出的具体要求 1.培养基本要求 研究生培养采取导师负责、导师指导团队协助的培养方式。导师负责指导研究生制定个人培养计划、 86 撰写开题报告和学位论文、开展学术（科学）研究、组织学术交流、并召集指导团队对研究生进行指导等。 导师指导团队中至少有两名专家应该具有博士导师资格，主要协助进行研究生日常指导工作，参与研究生 培养的各个环节。 2.论文开题要求 以书面及答辩形式做开题报告，记 1 学分，成绩按通过/不通过登记。 开题报告的主要内容包括：（1）课题来源和选题依据，对国内外有关文献进行阅读、分析和总结； （2）研究内容、研究目标以及拟解决的关键科学问题；（3）拟采取的研究方案及可行性分析；（4）创 新之处；（5）研究计划及预期研究结果。开题报告参考文献不少于 80 篇，其中 1/3 以上必须是近 5 年发 表的。 开题报告至少由 5 名具有副教授以上职称（其中至少 3 名教授）的教师审定并签署意见。开题报告评 审小组要求至少由 5 名具有副教授以上职称的人员组成。由博士生向评审小组作选题报告，时间约 40 分 钟。评审小组根据其书面质量、口头报告质量和回答问题情况，填写评审意见和成绩。如果开题报告未通 过，需再次开题，开题在第 3 学期进行。 开题报告不少于 10000 字。开题报告评审通过后，须完整填写《博士研究生开题报告》，交学院留存， 毕业时归入学位档案。 3. 论文中期进展要求 以书面及答辩形式做论文中期进展报告，记 1 学分。 中期进展报告就课题的实验方法、数据、结果的可靠性、设计方案的可行性、初步结论的正确性以及 能否如期完成学位论文工作等进行公开答辩，须有至少 5 名具有副教授以上职称（其中至少 3 名教授）或 博士学位者对中期报告进行考核，一般在第 4 或第 5 学期内进行。 中期研究报告通过者，继续进行论文工作。未通过者可在 6 个月内再补作一次中期研究报告，仍未通过 者，不得继续进行论文工作，按肄业处理。中期考核通过后，须填写《博士生中期报告及综合考核表》交研 究生院，复印件和书面开题报告交学院留存。 4. 参加学术活动要求 研究生须参加 9 次以上学术活动，记 1 学分。每次参加学术活动应有书面记录，做学术报告应有书面 材料，在申请学位前，经导师签字的书面记录交学院备案并记相应学分。 5. 发表学术论文要求 按照《武汉科技大学博士、硕士研究生申请学位取得学术成果的规定》执行。 6. 学位论文预答辩要求 按照《武汉科技大学博士学位论文预答辩暂行办法》执行。 7. 学位论文答辩要求 按照《武汉科技大学博士、硕士学位授予工作细则》及《武汉科技大学研究生学位论文检测规定（试 行）》等文件执行。 87 化学工程与技术博士研究生课程计划表 类别 课程性质 公共 必修课 学时 学分 开课 学期 开课学院 17BSA0601 汉语 160 4 1 文法与经济学院 17BSA2101 中国概况 32 2 1 国际学院 17BC22101 化工技术进展 32 2 1 化学与化工学院 必修 15BD22101 近代分析测试技术 32 2 1 化学与化工学院 必修 课程编号 课程名称 备注 必修 学 位 课 学科 基础课 科学道德与学术论文 写作 来华留学的跨文化适 19BSY2101 应 6 0 2 国际学院 必修 32 2 2 国际学院 必修 19BSY0701 数值分析 16 1 1 理学院 15BY22101 碳材料科学研究进展 32 2 2 化学与化工学院 15BY22102 现代生物技术进展 32 2 2 化学与化工学院 15BY22103 超分子化学 32 2 2 化学与化工学院 15SY22103 高等有机化学 32 2 2 化学与化工学院 15SY22101 高等分离工程 32 2 2 化学与化工学院 15BYJ2201 开题报告 1 3 化学与化工学院 15BYJ2205 学术活动 ≥9 次 1 1-6 15BYJ2203 论文中期报告及考核 1 4 15BYJ2204 学位论文 9 20BS51001 公共 选修课 选 修 课 专业 选修课 选修： ≥2 学分 必修 研究环节 88 化学与化工学院 化学与化工学院 Educational Program for Doctoral Students of Chemical Engineering and Technology (Discipline Code: 0817 Conferred Degrees: Doctor of Engineering) Ⅰ. Educational Objectives The discipline is aimed at fostering international students’ ability in keeping abreast of the advancements in chemical and physical processes in all types of processing industries (chemical industry in particular), in meeting the needs of modern chemical industry for top chemical engineering talents. The graduates are expected to possess the fundamental theories and systematic professional knowledge, the spirit of innovation and team work, and the ability to excel at development, education, and management in the modern chemical industries and some other related fields. Ⅱ. Research Fields 1. Chemical Engineering 2. Chemical Technology 3. Biochemical Engineering 4. Applied Chemistry 5. Industrial Catalysis Ⅲ. Program Duration Schooling of full-time doctoral candidate lasts 3 years and the duration of schooling is usually 3-5 years. Ⅳ. Credits and Requirements Credit Requirement and Allocation for Doctoral Candidates of Chemical Engineering and Technology Total Credits ≥26credits Public compulsory courses: 6 credits, including Chinese Language (4 credits) and A Survey of China (2 credits) Course credits ≥14 credits Public Elective Courses≥2 credits Discipline basic courses≥ 4 credits Professional electives≥2 credits Dissertation proposal: 1 credit Research credits ≥12credits Academic activities: 1 credit Dissertation interim progress report and assessment: 1 credit PhD dissertation: 9 credits Please refer to the attached Curriculum for specific course arrangements 89 Ⅴ. Pecific Requirements for Doctoral Candidates in Chemical Engineering and Technology 1. Basic Requirements for Cultivation The training mode of doctoral candidate is for the supervisor to takes charge, while the supervisor team provides assistance. The supervisor is responsible for providing guidance for doctoral candidate to make personal training program, write thesis proposal and dissertation, make academic (scientific) research, and to organize academic exchange and for convening supervisor team for the guidance of the doctoral candidate. The supervisor team should have at least two experts qualified to be supervisor of doctoral candidate whose main task is to provide regular guidance for doctor candidate and participate in the whole process of training. 2. PhD Dissertation Topic and Research Proposal Dissertation proposal shall be presented in a written and oral defense form, counting 1 credit, Grades are either pass or fail. Contents of a dissertation proposal include: (1) the background and basis of the selected topic, a review of domestic and abroad literature with an analysis and a summary; (2) research objectives, content and key scientific issues to be solved; (3) research program to be adopted and feasibility analysis; (4) main innovative points; (5) research plan and expected results. PhD dissertation proposal should be no less than 10,000 words and have at least 80 references, and one third of which must be published in the recent 5 years. A dissertation proposal report shall be reviewed and commented by at least five associate professors and above titles (at least three of whom are professors). The special evaluation group of more than five members will be organized by the department of the supervisor, all of whom are senior professional title holders. The doctoral student should make presentation of the Topic Selection to the evaluation group, which will last about 40 minutes. The evaluation group will write down comments and grades according to the quality of writing, quality of oral presentation and ways of giving answers. If a candidate fails the assessment, a new thesis proposal shall be made. A Dissertation proposal is usually made in the third semester. A dissertation proposal should be no less than 10,000 words. When a proposal report is appraised and approved, a Doctoral Candidate’s Dissertation Proposal Form shall be completed and submitted to one’s school and reserved in the degree achieves. 3. The Mid-term Progress Requirements for a dissertation The mid-term progress of a dissertation shall be presented in a written and oral defense form, counting 1 credit. The mid-term progress report should be presented publicly around the validity of experiment methods, data, results, preliminary conclusion from the research approach, and whether the thesis can be completed on schedule. There should be at least five associate professors and above titles (at least three professors) or doctors attending the oral defense and providing advice for existing problems. The mid-term progress report will be carried out in the fourth or fifth semester. The one who passes the mid-term progress report presentation can enter into the stage of dissertation work. And the one who fails in the evaluation will have a chance to do a supplementary 90 presentation of interim research report in six months. If the presentation fails again, the doctoral student will not be allowed to enter into the stage of thesis writing and the student will be considered as one student who fails to finish school. Once the mid-term examination is passed, a Doctoral Student’s Mid-term Report and Comprehensive Assessment Form shall be completed and submitted to the Graduate School, and a copy of that and a written form of the original dissertation proposal report shall be preserved by the school. 4. Requirements for Academic Activities A graduate student shall participate in at least nine academic activities, counting 1 credit. A written record shall be prepared for each academic activity and a written material shall be reserved for an academic presentation. The written record signed by the supervisor shall be submitted to the school to register credits before applying for a degree. 5. Academic Articles Publishing Requirements Follow the Provisions of Doctoral and Master Students of Wuhan University of Science and Technology Applying for a Degree and Gaining Academic Achievements. 6. Dissertation Pre-Defense Requirements Follow the Tentative Procedures for the Pre-defense of the Doctoral Dissertation of Wuhan University of Science and Technology. 7.Dissertation Defense Requirements Follow the Working Rules on Awarding Doctoral and Master Degrees of Wuhan University of Science and Technology, and Graduate Student Dissertation Detection Rules of Wuhan University of Science and Technology (Trial), etc. 91 Curriculum for Doctoral Students of Chemical Engineering and Technology Category Course Nature Course Code Common compulsory courses Degree Course name Hour Credit Term 17BSA0601 Chinese Language 160 17BSA2101 A Survey of China Discipline fundamental courses Public Elective Courses Elective course Professional elective courses Research 1 32 2 1 32 2 1 32 2 1 6 0 32 19BSY0701 Numerical Analysis Progress of Chemical Engineering and Technology Modern Analysis and Measurement 15BD22101 Technology Scientific Ethics and Academic 20BS51001 Journal Writing Cross-Culture Adaptation —Study in 19BSY2101 China 17BC22101 course 4 School School of Literature Law and Economics Note Compulsory International School School of Chemistry and Chemical Engineering Compulsory 2 International School Compulsory 2 2 International School Compulsory 16 1 1 College of Science 15BY22101 Progress of Carbon Material Science 32 2 2 15BY22102 Progress of Modern Biotechnology 32 2 2 15BY22103 Supramolecular Chemistry 32 2 2 15SY22103 Advanced Organic Chemistry 32 2 2 15SY22101 Advanced Separate Engineering 32 2 2 15BYJ2201 Dissertation proposal 1 3 15BYJ2205 Academic activities ≥9 times 1 1-6 Mid-term progress report and 15BYJ2203 assessment 1 15BYJ2204 Dissertation 9 92 4 School of Chemistry and Chemical Engineering School of Chemistry and Chemical Engineering Compulsory Elective: ≥2 credits Compulsory 化学工程与技术硕士研究生培养方案 （学科代码： 0817 授 工学硕士 学位） 一、培养目标 本学科旨在培养在化学工程与技术领域具有广泛的知识和深厚的学术基础的留学生。通过持续的智力 开发和学术训练，留学生能够胜任工程设计、系统分析、过程集成、操作管理工作，具备在化学工程、化 学工艺、能源与环境工程、材料科学与工程、制药工程、生物化工等领域开展学术研究的能力。具有专业 和道德责任感、国际视野、创新精神、实践能力和竞争力。 二、研究方向 1. 化学工程 2. 化学工艺 3. 生物化工 4. 应用化学 5. 工业催化 三、学习年限 全日制攻读学术型硕士学位的学习年限为 2-3 年。 四、学分要求 化学工程与技术硕士研究生学分要求及学分分配表 ≥32 学分 总学分 公共必修课程 为 6 学分，包括汉语 4 学) 和中国概况 2 学分 课程学分 ≥25 学分 公共选修课≥2 学分 学科基础课≥ 10 学分 专业选修课≥7 学分 开题报告：1 学分 研究学分 ≥7 学分 学术交流：1 学分 论文中期进展报告及考核：1 学分 学位论文：4 学分 具体课程设置见课表 五、研究环节与学位论文 1. 培养基本要求 研究生的培养采取导师为第一责任人的导师负责制，也可以实行以导师为主的指导小组负责制。指导 93 小组的组成可根据研究生的研究方向及课题内容由导师提名、学院领导批准，小组成员一般由包括导师在 内的 3~5 名具有副高级及以上职称的校内外专家组成，导师在硕士研究生培养中起主导作用。同时，指导 小组应协助导师对研究生的课程学习、科学研究和学位论文进行指导。 在培养过程中，采取理论学习和科学研究相结合的办法，特别注意培养研究生的独立工作能力、自学 能力、分析和解决实际问题的能力；鼓励研究生参加学术活动、独立钻研、自己选题和从事探索性的研究。 2. 开题报告要求 以书面及答辩形式就论文开题作报告，记 1 学分。 开题报告的内容一般应包括：（1）课题来源和选题依据，对国内外有关文献进行阅读、分析和总结； （2）研究内容、研究目标以及拟解决的关键科学问题；（3）拟采取的研究方案及可行性分析；（4）创 新之处；（5）研究工作基础，说明具备的研究条件、研究过程中可能遇到的困难和问题及其可能的解决 办法和措施；（6）研究工作计划及时间安排。开题报告参考文献不少于 40 篇，其中至少 1/3 以上必须是 近 5 年发表的。 开题报告须有至少 5 名具有副教授以上职称或具有博士学位的教师审定并签署意见，答辩环节至少有 5 名具有副教授以上职称或具有博士学位的教师参加，答辩未能通过者，必须重新做开题报告。论文开题 报告应在第 3 学期完成。 书面开题报告不少于 5,000 字。开题报告评审答辩通过后，须完整填写《硕士研究生开题报告》，交 学院留存，毕业时归入学位档案。 3. 参加学术活动要求 研究生在学习期间必须参加 6 次以上学术活动，记 1 学分。 研究生每次参加学术报告后应该写一篇不少于 250-500 字的活动摘要，填写学术活动登记表，由导师 签字后生效。学生按要求参加学术报告并核准后才能取得相应的学分。如未达到要求，将被视为未完成， 不得进行答辩。 4. 发表学术论文要求 按照《武汉科技大学博士、硕士研究生申请学位取得学术成果的规定》执行。 5. 学位论文答辩要求 按照《武汉科技大学博士、硕士学位授予工作细则》及《武汉科技大学研究生学位论文检测规定（试 行）》等文件执行。 94 化学工程与技术硕士研究生课程计划表 类别 课程性质 公共 必修课 学 课程编号 课程名称 学时 学分 17BSA0601 汉语 160 4 开课 学期 1 开课学院 备注 文法与经济学院 必修 17BSA2101 中国概况 32 2 1 国际学院 15SD22101 传递过程原理 32 2 1 化学与化工学院 必修 15SD22102 化学反应工程 40 2.5 1 化学与化工学院 必修 15SD22103 高等化工热力学 40 2.5 1 化学与化工学院 必修 15SD22104 化工过程分析与集成 32 2 2 化学与化工学院 必修 15SY22101 高等分离工程 32 2 2 化学与化工学院 必修 位 课 学科 基础课 科学道德与学术论文 写作 来华留学的跨文化适 19BSY2101 应 6 0 2 国际学院 必修 32 2 2 国际学院 必修 19BSY0701 数值分析 16 1 1 理学院 15SY22103 高等有机化学 32 2 2 化学与化工学院 15SY22109 现代仪器分析 32 2 2 化学与化工学院 15BY22103 超分子化学 32 2 2 化学与化工学院 选修： 15SY22110 生化工程前沿 32 2 2 化学与化工学院 ≥7 学分 17BC22101 化工技术进展 32 2 1 化学与化工学院 15SD02103 材料制备技术 32 2 1 材料与冶金学院 15SYJ2201 开题报告 1 3 化学与化工学院 15SYJ2205 学术活动 ≥6 次 1 1-6 20BS51001 公共 选修课 选 修 课 专业 选修课 研究环节 必修 15SYJ2203 中期进展报告及考核 1 15SYJ2204 学位论文 4 95 4 化学与化工学院 化学与化工学院 Educational Program for Master Students of Chemical Engineering and Technology (Discipline Code: 0817 Conferred Degrees: Master of Engineering) Ⅰ. Educational Objectives This program is to prepare international students with broad knowledge and an in-depth academic foundation in the field of chemical engineering and technology. After continual scholarly training and developing their intellectual capacity and , the students are expected to (1) be qualified for positions in such fields as engineering design, system analysis, process integration, operational management and academic research in chemical engineering, chemical technology, energy and environmental engineering, material science and engineering, pharmaceutical engineering and biochemical engineering; (2) have professional and ethical responsibility, international perspective, innovative spirit, practical competence and competitiveness. Ⅱ. Research Fields 1. Chemical Engineering 2. Chemical Technology 3. Biochemical Engineering 4. Applied Chemistry 5. Industrial Catalysis 6. Material Chemical Engineering 7. Pharmaceutical and fine chemical Ⅲ. Program Duration The duration of the full-time program for academic master’s degree is 2-3 years. Ⅳ. redits and Requirements Credit Requirement and Allocation for Master Degree Candidates of Chemical Engineering and Technology Total credits ≥32credits Common compulsory courses are 6 credits, including Chinese Language(4 credits) and A Survey of China (2 credits); Course credits ≥25credits Public Elective Courses≥2 credits Discipline basic courses ≥ 10 credits; professional elective courses ≥7 credits Research credits ≥7 credits Thesis proposal: 1 credit; Academic activities: 1 credit; 96 Thesis interim progress report and assessment: 1 credit; Thesis: 4 credits Please refer to the attached Curriculum for specific course arrangements Ⅴ. Research and dissertation 1. Basic Requirements for Cultivation Cultivating overseas students in master’s program is based on the mentor responsibility system where the mentor is the first responsible party, or on an instructing team responsibility system with the mentor as the director. The instructing team, composed of 3-5 associate professors and professional teachers (including the mentor), should be nominated by the mentor and then approved by relevant schools with mentors playing a leading role in the overseas graduates’ cultivating according to the students’ research fields and research subjects. The instructing team should assist the mentor to instruct courses, research work and dissertation writing. During the cultivation, both theoretical study and scientific research should be combined. The program should: (1) emphasize the cultivation of the ability of carrying out independent and creative scientific work; (2) instruct students to learn, and to analyze and solve practical problems independently; (3) encourage them to participate in academic activities actively and support them in independent researches ; (4) assist them in selecting their research field for their thesis and exploring their research. For the students who are lack of experience and expertise and interdisciplinary knowledge, mentors and schools should create favorable environment for them to make up. 2. Thesis Proposal Requirements Thesis proposal shall be presented in a written and oral defense form, counting 1 credit. Contents of a thesis proposal shall include: (1) the background and basis of the selected topic, and a review of domestic and abroad literature with an analysis and a summary; (2) research objectives, content and key scientific issues to be solved; (3) research program to be adopted and feasibility analysis; (4) main innovative points; (5) the research foundation illustrating exsiting research condition, and possible difficulties, problems, and their possible solutions and measures during the research process; (6) a research plan and a time schedule. P Thesis proposal should be no less than 5,000 words and have at least 40 references, and one third of which must be published in the recent 5 years. A thesis proposal report shall be reviewed and commented by at least five associate professors and above titles or doctors. There should be at least five (associate) professors or doctors attending the oral defense. If students failed the oral defense, the thesis proposals should be re-prepared. A thesis proposal is usually made in the third semester. When a proposal report is appraised and approved, a Master Candidate’s Thesis Proposal Form shall be completed and submitted to one’s school and reserved in the degree achieves. 97 3. Requirements for Academic Activities A graduate student should participate in at least six academic activities during their study period, counting 1 credit. After attending academic activities, students should write an abstract about the activities in no less than 250-500 words and fill out an academic activities enrollment form which takes effect only with their supervisors’ permission and signature the document. Credits can be achieved only after qualified examination and verification. If one fails to meet the requirements, s/he will be regarded as not finishing the program and will not be permitted to undertake thesis defense. 4. Academic Articles Publishing Requirements Follow the Provisions of Doctoral and Master Students of Wuhan University of Science and Technology Applying for a Degree and Gaining Academic Achievements. 5. Thesis Defense Requirements Follow the Working Rules on Awarding Doctoral and Master Degrees of Wuhan University of Science and Technology, and Graduate Student Dissertation Detection Rules of Wuhan University of Science and Technology (Trial), etc. 98 Curriculum for Master Students of Chemical Engineering and Technology Category Course nature Course Code Common compulsory course Hour Credit Term School School of Literature Law and Economics International School Note 17BSA0601 Chinese Language 160 4 1 17BSA2101 A Survey of China 32 2 1 15SD22101 The Principle of Transfer Processes 32 2 1 Compulsory 15SD22102 Chemical Reaction Engineering Advanced Chemical Engineering 15SD22103 Thermodynamics 15SD22104 Chemical Process Analysis and Integration 40 2.5 1 Compulsory 40 2.5 1 32 2 2 Compulsory 15SY22101 Advanced Separate Engineering Scientific Ethics and Academic Journal 20BS51001 Writing Public Elective 19BSY2101 Cross-Culture Adaptation —Study in China Courses 19BSY0701 Numerical Analysis 32 2 2 Compulsory 6 0 2 32 2 2 International School 16 1 1 College of Science 15SY22103 Advanced Organic Chemistry 32 2 2 15SY22109 Modern Instrumental Analysis 32 2 2 15BY22103 Supramolecular Chemistry 32 2 2 15SY22110 Frontier of Biochemical Engineering Progress of Chemical Engineering and 17BC22101 Technology 15SD02103 Processing for Materials 32 2 2 32 2 1 32 2 1 15SYJ2201 Thesis proposal 1 3 15SYJ2205 Academic activities ≥6 times 1 15SYJ2203 Mid-term progress report and assessment 1 1-6 School of Chemistry and Chemical 4 Engineering 15SYJ2204 Thesis 4 Degree course Course name Discipline fundamental course Elective course Professional elective course Research 99 School of Chemistry and Chemical Engineering International School School of Chemistry and Chemical Engineering Compulsory Compulsory Compulsory Compulsory Elective: ≥7 credits School of Materials and Metallurgy Compulsory 工商管理硕士（MBA）研究生培养方案 学科代码：125100 授 工商管理硕士 学位 一、培养目标 培养适应社会经济发展需要，德智体美劳全面发展，具备管理、经济、法律及企业管理等方面 的专门知识，具有国际视野，熟悉国际企业管理的惯例与规则，具有高度社会责任感和优秀职业素 养、良好的沟通能力和团队合作精神，具有战略思维、系统管理、创新企业家精神、“钢铁品质” 和卓越执行能力，有效运用管理理论和方法解决工商管理实际问题的高级管理专业人才。 二、培养方向 1、企业战略管理 2、生产运作与服务管理 3、营销管理与电子商务 4、创业与中小企业管理 5、会计与财务管理 6、组织与人力资源管理 三、学习年限 全日制攻读工商管理硕士学位的学习年限为 2 年。 四、学分要求 工商管理硕士（MBA）研究生学分要求及学分分配表 ≥62 学分 总学分 公共必修课≥6 学分 修课学分 ≥50 学分 公共选修课≥2 学分 学科基础课≥30 学分 专业选修课≥12 学分 讲座 2 学分 体验式管理训练 1 学分 实践环节 与 学位论文 12 学分 社会调查 1 学分 企业实践 2 学分 开题报告 2 学分 学位论文 4 学分 具体课程设置见附表 100 五、实践环节与学位论文 1、实践环节 实践环节共计 6 学分。其中： 听讲座（共 2 学分，每次讲座 0.5 学分）。学生在学习期间必须参加至少 4 次以上讲座，并根 据每次讲座内容按要求撰写心得体会，以书面形式提交给武汉科技大学 MBA 教育中心，方可获得 该次讲座学分。 体验式管理训练（1 学分）。学生必须参加学校组织的体验式管理训练活动（如拓展训练等）， 成绩合格方可取得该学分。 社会调查与企业实践（共 3 学分，其中社会调查 1 学分、企业实践 2 学分）。学生在学习期间 必须参加社会调查和企业实践活动，可结合毕业论文的选题进行，也可结合学生的工作实践进行。 社会调查和企业实践活动采用集中与分散相结合的方式，学生在校内、校外导师的指导下制定与提 交社会调查和企业实践活动计划。调查与实践活动一般在第 3、4 学期进行。社会调查和企业实践活 动结束后，必须向校内导师和校外导师提交相应报告，并由校内、校外导师组成的小组作出评审， 小组评审通过后，成绩合格者可取得相应学分。 2、开题要求 文献阅读与开题报告（2 学分）。开题报告是保证学位论文质量的重要环节，学生应在第 3 学 期完成文献阅读任务和学位论文开题报告。要求提交开题报告至论文答辩时间，周期不少于 9 个月， 完成后方可取得该项学分。 3、学位论文答辩要求 工商管理硕士（MBA）学位论文的相关要求参照《武汉科技大学博士、硕士研究生申请学位取 得学术成果的规定》、《武汉科技大学博士、硕士学位授予工作细则》及《武汉科技大学研究生学 位论文检测规定（试行）》等文件执行。 来华留学生可用英文或中文撰写学位论文。在前一种情况下，论文必须包括中文摘要，且该中 文摘要不少于 3000 汉字。 101 工商管理硕士（MBA）研究生课程计划表 类别 课程 性质 课程编号 课程名称 学时 学分 公共 17BSA0601 汉语 必修课 17BSA2101 中国概况 学 位 课 开课学院 备注 必修 6 学分 160 4 1 国际学院 32 2 2 国际学院 18ZD05301 国际商务英语 48 3 1 15ZD05306 营销管理 48 3 1 18ZD05302 组织行为与领导力 32 2 1 15ZD05301 管理经济学 48 3 2 18ZD05303 会计学 32 2 2 15ZD05305 企业战略管理 48 3 2 32 2 2 15ZD05303 数据、模型与决策 48 3 3 15ZD05307 人力资源管理 48 3 3 18ZD05305 公司理财与财务分析 48 3 3 15ZD05308 运营管理 48 3 4 科学道德与学术论文写 作 6 0 19BSY2101 来华留学的跨文化适应 32 恒大管理学院 必修 30 学分 2 国际学院 必修 2 2 国际学院 必修 16 1 1 理学院 18ZY05301 跨文化沟通 32 2 1 18ZY05302 创业学 32 2 2 15ZY05303 商法与商业伦理 32 2 3 专业 15ZY05304 国际贸易与金融 选修课 18ZY05303 国际企业管理 32 2 3 32 2 3 15ZY05306 电子商务与信息技术 32 2 4 15ZY05312 服务管理学 32 2 4 18ZY05304 项目管理导论 32 2 4 ZSJ05301 讲座 4 2 1-4 ZSJ05302 体验式管理训练 1 1 1 ZSJ05303 社会调查 1 3-4 ZSJ05304 企业实践 2 3-4 ZSJ05305 文献阅读与开题报告 2 3 ZYJ05301 学位论文 4 4 专业 基础课 18ZD05304 全球信息系统 20BS51001 公共 选修课 19BSY0701 数值分析 选 修 课 开课 学期 实践环节与学 位论文 102 恒大管理学院 选修 ≥12 学分 恒大管理学院 必修 12 学分 Educational Program for Master of Business Administration （MBA） Discipline Code: 125100 Conferred Degrees: Master of Business Administration Ⅰ. Educational Objectives MBA of WUST is designed to train high-level comprehensive managerial talents for industrial and commercial enterprises, financial sectors and economic management departments. MBA program attaches importance to the combination of theory and practice, educate graduates with high ability and quality. The graduates shall achieve the level of advanced knowledge in broad area of modern managerial skills, creative thinking, teamwork spirit, are skilled in scientific analysis, decision making. The program is also committed to developing a global strategic awareness for entrepreneurs, and training professional managers able to adapt to global competition. Ⅱ. Research Fields in Business Administration 1. Corporate Strategy Management； 2. Production Operation and Service Management； 3. Marketing and E-commerce；4. Entrepreneurship and S&M Enterprise Management 5. Accounting and Financial Management；6. Organization and HR Management； Ⅲ. Program Duration For full-time students the study is scheduled in 2 years. Ⅳ. Credit Requirements Credit Requirements and Allocation Instructions for Graduate Students of Master of Business Administration Total Credits ≥62 Public Compulsory Courses ≥6 credits Course Credits ≥50 credits Subject Basic Courses ≥ 30 credits Public Elective Courses≥2 credits Elective Specialized Courses ≥ 12 credits Attending Lectures, 2 credits Practical Experiential Management Training, 1 credit Experience and Degree Thesis 12 credits Social Survey, 1 credit Business Internship, 2 credit Thesis Proposal, 2 credit Degree Thesis, 4 credits Please refer to the attached Curriculum for specific course arrangements 103 Ⅴ. Research and Dissertation 1. Practical Experience Practical experience to 6 credits, including: Attending lectures (2 credits in total, each lecture counts 0.5 credits). Students must attend at least 4 lectures, and submit Knowledge Gained Report to the MBA Educational Center of WUST after each of the lecture attending. Experiential Management Training (1 credit). Students must take part in the experiential management training activities, e.g. outward bound. The credit can be earned only after pass the assessment. Social survey and business internship (3 credits in total, including 1 credit for social survey and 2 credits for business internship). Students must participate in social surveys and business internship during their studies, which can be combined with the topic of degree thesis, or combined with the working experience of the students. Social surveys and business internship could be in group or separately. Students develop and submit social surveys and corporate practice plans under the guidance of professors and business practitioners. The survey and internship are generally conducted in the third and (or) fourth semester(s). After the social survey and business internship are completed, the corresponding report must be submitted to the MBA center and the hosting company. A panel composed of professors and business practitioners will review the report. The students can obtain the credits after the reports have been approved by the panel. 2. Thesis Proposal Requirements Thesis proposal (2 credits): The thesis proposal is an important part of ensuring the quality of the thesis. Students should complete the literature review and the thesis proposal in the third semester. The credits can be obtained after the proposal has been approved. The period between the thesis proposal approval and the thesis defense shall not less than 9 months. 3. Dissertation Defense Requirements A graduate student shall complete all training sessions, and shall follow the Provisions of Doctoral and Master Students of Wuhan University of Science and Technology Applying for a Degree and Gaining Academic Achievements, Working Rules on Awarding Doctoral and Master Degrees of Wuhan University of Science and Technology, and the Graduate Student Dissertation Detection Rules of Wuhan University of Science and Technology. For international students, the thesis can be written and presented in English or Chinese. In the case of the former, the thesis must contain an abstract written in Chinese which is no less than 3000 Chinese characters. 104 Curriculum for Master of Business Administration Category Course Nature Course Code Course Name Hour Credit Semester School Notes 17BSA0601 Chinese Language 160 4 1 International School Compulsory, 6 17BSA2101 A Survey of China 32 2 1 International School credits 18ZD05301 International Business English 48 3 1 15ZD05306 Marketing Management 48 3 1 18ZD05302 Organizational Behavior and Leadership 32 2 1 15ZD05301 Managerial Economics 48 3 2 Degree 18ZD05303 Accounting 32 2 2 Courses 15ZD05305 Corporate Strategy Management 48 3 2 18ZD05304 Global Information Systems 32 2 2 15ZD05303 Data Model & Decision-making 48 3 3 15ZD05307 Human Resource Management 48 3 3 18ZD05305 Corporate Finance and Financial Analysis 48 3 3 15ZD05308 Operations Management 48 3 4 20BS51001 Scientific Ethics and Academic Journal Writing 6 0 19BSY2101 Cross-Culture Adaptation Study in China 32 19BSY0701 Numerical Analysis 18ZY05301 Cross-cultural Communication Public Compulsory Courses Elective Subject Basic Courses Public Elective Courses Courses Elective 105 Evergrande School of Compulsory, 30 Management credits 2 International School Compulsory 2 2 International School Compulsory 16 1 1 College of Science 32 2 1 Evergrande School of Electives, ≥12 Specialized Courses Practical Experience and Degree Thesis 18ZY05302 Entrepreneurship 32 2 2 15ZY05303 Business Law & Business Ethics 32 2 3 15ZY05304 International Trade & Finance 32 2 3 18ZY05303 International enterprise management 32 2 3 15ZY05306 E-Business & Information Technology 32 2 4 15ZY05312 Service Management 32 2 4 18ZY05304 Introduction to Project Management 32 2 4 ZSJ05301 Attending Lectures, 2 credits 4 2 1-4 ZSJ05302 Experiential Management Training 1 1 1 ZSJ05303 Social Survey 1 3-4 ZSJ05304 Business Internship 2 3-4 ZSJ05305 Thesis Proposal 2 3 ZYJ05301 Degree Thesis 4 4 106 Management credits Evergrande School of Compulsory, 12 Management credits 系统科学博士研究生培养方案 （学科代码： 0711 授 理学博士 学位） 一、培养目标 1. 具有高度的事业心和责任感，具有开放精神和团队精神，诚实守信，恪守学术道德规范。 2. 具备本学科扎实的基础理论知识和宽广的专业知识。 3. 深入掌握系统科学领域的理论与方法，全面了解本学科的发展方向和国际前沿，能够熟练利用系统 科学思想和方法解决实际问题。 4. 具备独立从事科学研究的能力，能综合运用理论分析、数据计算、先进实验和测试手段等手段对复 杂系统进行深入地创新性研究。 5. 能在科研机构、教育、工业研究、工程设计及高级管理等领域从事相关工作。 二、研究方向 1. 系统理论 2. 复杂系统的建模与调控 3. 多人博弈与智能决策 4. 矿山系统分析与集成 5. 冶金工业过程系统复杂性 三、学习年限 全日制攻读博士学位研究生，学制 3 年，学习年限一般为 3~5 年。 四、学分要求 系统科学博士研究生学分要求及学分分配表 ≥26 学分 总学分 公共必修课 6 其中：汉语 4，中国概况 2 修课 ≥14 公共选修课≥2 学分 学科基础课≥4 专业选修课≥2 开题报告 1 研究环节 12 学术交流 1 论文中期进展报告及考核 1 学位论文 9 具体课程设置见课程计划表 107 五、具体要求 1.培养基本要求 培养计划应包含核心理论课程和科学研究。导师负责博士生培养方案指定。课题组参与博士生培养。 经过上级主管部门同意后，可以安排一名副导师参与指导。 2.开题要求 以书面及答辩形式作开题报告，记 1 学分，成绩按通过/不通过登记。 开题报告及答辩均须至少 5 名具有副教授以上职称或博士学位的老师（至少 3 名教授）审定及参加， 答辩未能通过者 3 个月后可再次申请。开题报告参考文献一般不少于 70 篇，且近五年内的文献不少于总 数的三分之一。开题工作原则上应于入学后第四学期结束前完成，且与论文答辩时间间隔不得少于 12 个 月。具体要求参照《武汉科技大学研究生学位论文开题报告管理办法》执行。 3.论文中期进展要求 以书面及答辩形式作论文研究中期进展报告，记 1 学分，成绩按通过/不通过登记。 至少 5 名具有副教授以上职称或博士学位的老师对中期报告进行考核。中期考核不合格者 6 个月后可 再次申请考核，中期考核与论文答辩的时间间隔不得少于 6 个月。 4.参加学术活动要求 博士研究生必须参加 9 次以上校内外学术交流，记 1 学分，成绩按通过/不通过登记。 5.发表学术论文要求 发表或录用的论文参照武汉科技大学相关文件执行。 6.学位论文预答辩要求 参照《武汉科技大学博士学位论文预答辩暂行办法》。 7.学位论文答辩要求 博士研究生完成所有培养环节，学位论文的相关要求参照《武汉科技大学博士、硕士研究生申请学位 取得学术成果的规定》、《武汉科技大学博士、硕士学位授予工作细则》及《武汉科技大学研究生学位论 文检测规定（试行）》等文件执行。 108 系统科学博士研究生课程计划表 类别 课程性质 公共 必修课 学 位 课 学科 基础课 公共 选修课 选 修 课 专业 选修课 课程编号 课程名称 学时 学分 17BSA0601 汉语 160 4 开课 学期 开课学院 1 文法与经济学院 备注 必修 17BSA2101 中国概况 32 2 1 19BC07501 高级系统学 16 1 1 19BC07502 复杂性与临界现象 16 1 2 19BD07501 动力系统分析 24 1.5 1 19BD07502 多主体建模 24 1.5 1 19BD07503 复杂网络分析 32 2 2 20BS51001 科学道德与学术论文写作 6 0 19BSY2101 来华留学的跨文化适应 32 19BSY0701 数值分析 国际学院 理学院 必修 2 国际学院 必修 2 2 国际学院 必修 16 1 1 理学院 17SX14019 第二外国语(德语上) 32 2 1 外国语学院 17SX14020 第二外国语(德语下) 32 2 2 外国语学院 19BY07501 随机分析方法 32 2 1 19BY07502 博弈论与非线性分析 32 2 2 19BY07503 相变动力学 32 2 2 19BY07504 矿山系统工程 32 2 2 19BY07505 机器学习与数据挖掘技术 32 2 2 19BY07506 系统科学学科前沿讲座 32 2 2 15BYJ0701 开题报告 1 15BYJ0702 学术交流≥9 次 1 15BYJ0703 论文中期进展报告及考核 1 15BYJ0704 学位论文 9 研究环节 109 理学院 ≥2 学分 理学院 必修 Educational Program for Doctoral Students of System science (Discipline Code: 0711 Conferred Degrees: Doctor of Science） Ⅰ. Educational Objectives 1.With a high sense of professionalism and responsibility, with open and team spirit, honest, trustworthy, and academic ethics. 2. Have a solid foundation of theoretical knowledge and broad expertise in the discipline. 3. Thoroughly grasp the theories and methods in the field of systems science, comprehensively understand the development of the discipline and the international frontier, and be able to use systemic scientific ideas and methods to solve practical problems. 4. With the ability to independently engage in scientific research, comprehensively use innovative methods such as theoretical analysis, data calculation, advanced experiments and testing methods to conduct in-depth and innovative research on complex systems. 5. With the ability to work in research institutions, education, industrial research, engineering design and advanced management. Ⅱ. Research Fields 1. System theory 2. Modeling and regulation of complex systems 3. Multiplayer game and intelligent decision 4. Analysis and integration of mine system 5. The complexity of metallurgical industry process system Ⅲ. Program Duration The length of schooling for full-time Ph.D. candidates is 3 years and the duration of study normally is 3 to 5 years. Ⅳ. Credit Requirements Credit Requirement and Allocation for Doctoral Candidates of System science Total Credits ≥26 credits Public compulsory courses =6 credits among which: Chinese Language= 4 credits, A Survey of Courses Credits ≥14 credits China=2 credits Public Elective Courses≥2 credits Subject Basic Courses≥4 credits Elective Specialized Courses≥2 credits 110 Research Proposal 1 credits Research 12 credits Session Academic Communication 1 credits Mid-term Progress Report and Thesis Assessment 1 credits Dissertation 9 credits Please refer to the attached Curriculum for specific course arrangements Ⅴ. Specific Requirements for Doctoral Candidates 1. Basic requirements The education for candidates should include study on theories and practice in research. A doctoral supervisor is responsible for the education. With approval from the senior management, an assistant supervisor is allowed to provide guidance. 2. Thesis Proposal Requirements Thesis proposal shall be presented in a written and oral defense form, counting 1 credit. Grades are either pass or fail. A thesis proposal report shall be reviewed and commented by at least five associate professors and above titles (at least three of whom are professors) or doctors. If the candidate fails, he may apply again in 3 months. The number of references should be not less than 70, of which at least 1/3 must be published in the recent five years. Report of research proposal should be completed before the end of the fourth semester, and at least 12 months before the defense. The specifications can be consulted in the relevant files of WUST. 3. Mid-term Evaluation Requirements The mid-term progress of a thesis shall be presented in a written and oral defense form, counting 1 credit. Grades are either pass or fail. There should be at least five associate professors and above titles (at least three professors) or doctors attending the mid-term report. Those who fail can apply in six months, and the interval between mid-term evaluation and oral defense shall not be less than 6 months. 4. Academic Communication Requirements Doctoral students must participate in academic exchanges on or off the campus for more than 9 times, which accounts for 1 credit, and the grades are either pass or fail. 5. Academic Articles Publishing Requirements Please refer to the relevant regulations provided by WUST. 6. Pre-defense Requirements Refer to the Interim Measures for the Preliminary Defense of the Doctoral Dissertation of Wuhan University of Science and Technology. 7. Defense Qualification Requirements A doctoral student shall complete all training sessions, and shall follow the Provisions of Doctoral and Master Students of Wuhan University of Science and Technology Applying for a Degree and Gaining Academic Achievements, Working Rules on Awarding Doctoral and Master Degrees of Wuhan University of Science and Technology, and the Graduate Student Dissertation Detection Rules of Wuhan University of Science and Technology (Trial). 111 Curriculum for Doctoral Students of System Science Course Type Course Nature Course Code Public Compulsory Courses Degree Courses Subject Basic Courses Elective Courses Elective Specialized Courses Hour Credit Semester School 17BSA0601 Chinese Language 160 4 1 School of Literature Law and Economics 17BSA2101 A Survey of China 32 2 1 International School 19BC07501 Advanced Systems Science 16 1 1 19BC07502 Complexity and Criticality 16 1 2 19BD07501 Dynamic System Analysis 24 1.5 1 19BD07502 Multi-agent modeling 24 1.5 1 19BD07503 Complex Networks 32 2 2 Scientific Ethics and Academic Journal Writing 6 0 19BSY2101 Cross-Culture Adaptation —Study in China 32 19BSY0701 Numerical Analysis Notes Compulsory College of Science Compulsory 2 International School Compulsory 2 2 International School Compulsory 16 1 1 College of Science 17SX14019 Second Foreign Language (German I) 32 2 1 17SX14020 Second Foreign Language (German II) 32 2 2 19BY07501 Stochastic Analysis 32 2 1 19BY07502 Machine Learning and Data Mining Technology 32 2 2 19BY07503 Lectures on Frontiers of System Science 32 2 2 19BY07504 Game Theory and Nonlinear Analysis 32 2 2 19BY07505 Kinetics of Phase Transitions 32 2 2 20BS51001 Public Elective Courses Course Name 112 School of Foreign Languages College of Science ≥2 credits 19BY07506 Mine System Engineering 32 2 15BYJ0701 Research Proposal 1 15BYJ0702 Academic Communication 1 Research Session 2 College of Science 15BYJ0703 Mid-term Evaluation 1 15BYJ0704 Dissertation 9 113 Compulsory 系统科学硕士研究生培养方案 （学科代码： 0711 授 理学硕士 学位） 一、培养目标 1. 具有高度的事业心和责任感，具有开放精神和团队精神，诚实守信，恪守学术道德规范。 2. 具有扎实的数理基础，掌握系统科学领域的理论与方法。 3. 能够熟练利用数理、计算机等手段对系统的结构、性质和演化规律进行探讨，或在某一具体领域开 展应用研究。 4. 具有良好的表达交流能力和团队精神，能比较熟练地阅读本专业的外文资料。 二、研究方向 1. 复杂系统数据挖掘及结构预测 2. 工业系统数据分析及应用 3. 复杂系统演化博弈机器学习 4. 系统可靠性分析及应用 5. 材料组织与相变的大数据分析技术 三、学习年限 全日制攻读学术型硕士学位的学习年限为 3 年。 四、学分要求 系统科学学术硕士研究生学分要求及学分分配表 ≥32 学分 总学分 公共必修课=6 学分 修课学分 ≥25 学分 公共选修课≥2 学分 专业基础课≥10 学分 专业选修课≥7 学分 开题报告 1 学分 研究环节 7 学分 学术交流 1 学分 论文中期进展报告 1 学分 学位论文 4 学分 具体课程设置见附表 五、研究环节与学位论文 1. 培养基本要求 培养计划应包含核心理论课程和科学研究。导师负责硕士生培养方案指定。课题组参与硕士生培养。 114 2. 开题要求 以书面及答辩形式就论文选题作报告，记 1 学分，成绩按通过/不通过登记。 开题报告及答辩环节须有 3~5 名具有副教授以上职称或具有博士学位的老师审定、参加并签署意见。 开题报告的参考文献一般不少于 40 篇，其中近五年内的文献不少于文献总数的三分之一。研究生开题报 告原则上应在第三学期完成，特殊情况可推迟至第四学期。为保证有足够的论文工作时间，提交开题报告 与论文答辩的时间间隔不得少于 9 个月。 3.参加学术活动要求 硕士研究生须参加 6 次以上学术活动，记 1 学分。每次参加学术活动应有书面记录，做学术报告应有 书面材料，并交导师签字认可，在申请学位前交学院备案并记相应学分。 4.学位论文答辩要求 硕士研究生完成所有培养环节，学位论文的相关要求参照《武汉科技大学博士、硕士学位授予工作细 则》及《武汉科技大学研究生学位论文检测规定（试行）》等文件执行。 115 系统科学硕士研究生课程计划表 类别 课程 性质 选 修 课 课程名称 学时 学分 开课 学期 开课学院 17BSA0601 汉语 160 4 1 文法与经济学院 17BSA2101 中国概况 32 2 1 国际学院 19SC07501 系统学 16 1 1 19BC07502 复杂性与临界现象 32 2 2 19SD07501 系统科学数理基础 32 2 2 15SY07103 随机过程理论 32 2 2 15SC07301 统计计算与统计软件 32 2 1 19BD07503 复杂网络分析 32 2 2 20BS51001 科学道德与学术论文写作 6 0 公共 19BSY2101 来华留学的跨文化适应 32 选修课 19BSY0701 数值分析 公共 必修课 学 位 课 课程编号 学科 基础课 专业 选修课 研究 环节 备注 必修 理学院 必修 2 国际学院 必修 2 2 国际学院 必修 16 1 1 理学院 19SY07502 博弈论 32 2 2 15SY07303 多元统计分析 32 2 2 15SY07305 时间序列分析 32 2 2 19BY07505 机器学习与数据挖掘技术 32 2 2 19BY07506 系统科学学科前沿讲座 32 2 2 15SYJ0701 开题报告 1 3 15SYJ0702 学术交流≥6 次 1 1-4 15SYJ0703 论文中期进展报告 1 4 15SYJ0704 学位论文 4 5-6 116 理学院 ≥7 学分 理学院 必修 Educational Program for Master Students of System Science (Discipline Code: 0711 Conferred Degrees: Master of Science ) Ⅰ. Educational Objectives 1. With a high sense of professionalism and responsibility, open-mindedness and team spirit, being honest and trustworthy, and abide by academic ethics. 2. Have a solid mathematical foundation and master theories and methods in the field of systems science. 3. Proficiency in the use of mathematical and computer methods to explore the structure, nature and evolution of the system, or to conduct applied research in a specific field. 4. Have good communication skills and team spirit, and be able to read the foreign language materials of system science more skillfully. Ⅱ. Research Fields 1. Data mining and structure prediction of complex system 2. Data analysis and application for industrial system 3. Evolution game and machine learning of complex system 4. System reliability analysis and application 5. Big data analysis techniques for material organization and phase transition Ⅲ. Program Duration The length of schooling for full-time Master degree candidates is 3 years. Ⅳ. Credit Requirements Credit Requirement and Allocation for Master Degree Candidates of System Science Total Credits ≥32 credits Public compulsory courses =6 credits Courses Credits ≥25 credits Public Elective Courses≥2 credits Subject Basic Courses≥10 credits Elective Specialized Courses≥7 credits Research Proposal 1 credits Research Session Academic Communication 1 credits 7 credits Mid-term Progress Report and Thesis Assessment 1 credits Dissertation 4 credits Please refer to the attached Curriculum for specific course arrangements 117 Ⅴ. Research and dissertation 1. Basic requirements The education for candidates should include study on theories and practice in research. A doctoral supervisor is responsible for the education. The research team participates in the training of master students. 2. Research Proposal Requirements Thesis proposal shall be presented in a written and oral defense form, counting 1 credit. Grades are either pass or fail. A thesis proposal report shall be reviewed and commented by at least five associate professors and above titles (at least three of whom are professors) or doctors. The number of references should be not less than 40, of which 1/3 must be published in the recent five years. Report of research proposal should be completed in the third semester, and in special circumstances, it can be postponed to the fourth semester. The interval between the report and the defense is at least 9 months. 3. Academic Communication Requirements Master degree candidates are required to participate more than 6 academic activities and earn 1 credit. Each time you participate in an academic activity, there should be a written record. The academic report should have written materials and be signed and approved by the supervisor. Before applying for a degree, submit them to the college for record. 4. Defense Qualification Requirements A master degree candidate shall complete all training sessions, and shall follow the Working Rules on Awarding Doctoral and Master Degrees of Wuhan University of Science and Technology, and the Graduate Student Dissertation Detection Rules of Wuhan University of Science and Technology (Trial). 118 Curriculum for Master Students of System Science Course Type Course Nature Course Code Course Name Subject Basic Courses Public Elective Courses Selective Courses Elective Specialized Courses Research Session School Notes Compulsory 160 4 1 School of Literature, Law and Economics 32 2 1 International School 19SC07501 Systems Science 16 1 1 19BC07502 Complexity and Criticality 32 2 2 19SD07501 Fundamentals of Systems Science 32 2 2 15SY07103 Theory of Stochastic Process 32 2 2 15SC07301 Statistical Calculus and Statistical Software 32 2 1 19BD07503 Complex Networks Scientific Ethics and Academic Journal 20BS51001 Writing 19BSY2101 Cross-Culture Adaptation —Study in China 32 2 2 6 0 32 19BSY0701 Numerical Analysis Public Compulsory 17BSA0601 Chinese Language Courses 17BSA2101 A Survey of China Degree Courses Hours Credits Season College of Science Compulsory 2 International School Compulsory 2 2 International School Compulsory 16 1 1 College of Science 19SY07502 Game Theory 32 2 2 15SY07303 Multivariate Statistical Analysis 32 2 2 15SY07305 Analysis of Time Series 32 2 2 19BY07505 Machine Learning and Data Mining Technology 32 2 2 19BY07506 Lectures on Frontiers of System Science 32 2 2 15SYJ0701 Thesis Proposal 1 3 15SYJ0702 Academic communication 1 1-4 15SYJ0703 Mid-Term Evaluation 1 4 15SYJ0704 Dissertation 4 5-6 119 College of Science ≥7credits College of Science Compulsory