上海大学材料学院硕士培养方案

培 养 方 案

一、培养目标

为适应我国国民经济发展和社会主义建设的需要，培养德、智、体全面发展的材料科学与工程学科高层次专门技术人才，本学科硕士研究生培养目标是：

1．坚持党的基本路线，热爱祖国，尊纪守法，品德高尚，学风严谨，具有事业心和团队精神，立志为社会主义现代化建设事业服务。

2．在本门学科上掌握宽广的基础理论和系统的专门知识，熟练掌握一门外国语；具有从事材料科学与工程方面工作的研究与开发能力，以及担负专门技术工作的能力。

3．积极参加体育锻炼，身体健康。 二、学习年限

硕士研究生的学习年限为二年半。在职研究生的学习年限可适当延长半年至一年。 三、主要研究方向

1．材料相变及热力学 2．金属材料的强韧化 3．金属及合金中氢的行为

4．非晶、纳米晶和粉体材料制备及应用 5．材料的腐蚀及防腐 6．碳基复合材料 7．晶界工程 8．新型特种钢

9．模具材料的研究与应用 10．现代表面工程和技术 11．汽车用钢板的研究与应用 12．新型铝合金材料与成型技术 13．铸造合金及凝固技术 14．薄膜电子材料与器件 15．信息功能复合材料及应用

16．电子陶瓷材料的制备、性能研究及应用 17．微电子材料物理与化学

18．材料智能化、机敏化、智能结构与系统 19．光电子材料及器件

20．先进功能材料（如磁性材料、储能材料、超导材料、核反应堆材料、光催化环境净化材料等）

四、课程设置（见表） 五、论文工作

1. 在课程修满48学分后，可申请进入论文课题研究，但也可根据导师的实际安排，入学后一边学习，一边逐渐进入课题工作；电子信息材料系的研究生在开题报告前应提交2

篇与专业相关的科技综述报告。

2. 开题报告在第二学年第一学期进行，选题应与本专业的基础研究或国民经济中的重要问题相结合。开题报告应在5000字以上，开题报告应包括发展现状、选题意义、研究内容、进度安排以及预期成果等。开题报告应组织3名以上的高级职称教师进行评审，为公开性报告。

3. 在论文阶段的中期，进行阶段检查和期中考核，并做出书面论文阶段报告，报送上级管理部门，若离进度要求偏离较大予以黄牌警告。

4. 学位论文应注重创造性、学术性、正确性和应用性。在申请学位前，至少在国内外核心期刊上发表与学位论文相关的学术论文一篇（第一作者）；或有一项专利申请的证明或一项经省部级以上（含省部级）主持鉴定、验收的科研成果（排序前五名）。

5. 在完成论文并经过包括导师在内的3名高级职称教师认可后，组织论文预答辩和校内外同行专家评审答辩。

材料科学与工程专业硕士研究生课程设置

类 别 课程编号 课 程 名 称 开课学时 学分 学期 30 45 100 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 2 3 3 2 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 1 2 1,2 3 1 2 2 1 2 1 1 1 1 1 1 1 1 2 1 2 2 2 1 2 2 1 2 2 2 任选 4～6门 16～24学分 选3门 12学分 备注 政治 001000701 科学社会主义理论与实践 理论课 001000702 自然辩证法 第一 001000704 公共英语 外国语 101000701 专业英语 学 位 专业 基础课 课 专业课 101101701 材料热力学 101101702 金属材料的组织控制 101101703 金属凝固原理 101101710 金属材料测试与分析 101101704 材料的扩散与相变 101101705 材料微结构与性质 101101706 微电子材料物理与化学 101101707 晶体物理 101101708 薄膜材料及器件原理 101101709 材料科学学-固体物理Ⅱ 必 修 课 文献 阅读 研讨课 101101921 现代模具材料及其表面处理技术 101101909 新型铝合金材料与成形技术 101101910 汽车用高强度钢板研究 101101922 现代表面技术 101101901 材料的现代分析测试方法 101101902 材料科学试验设计 101101903 纳米科学与技术 101101918 先进材料进展 101101919 材料化学 101000901 光电探测技术 101000902 微纳电子材料与器件 101101911 半导体材料 101000903 新型集成电路封装材料 101101912 功能材料及其应用 101101913 电子陶瓷材料及器件 类 别 必 修 课 学术 研讨课 课程编号 课 程 名 称 开课学时 学分 学期 40 40 40 4 4 4 1 2 1 备注 101101920 激光材料 101101915 智能材料 101101916 先进复合材料及其应用 101203901 冶金熔体模型 101101923 焦炉煤气制氢技术 101203903 新材料制备科学与技术 101203904 电磁场在冶金和材料制备中应用 40 40 40 40 40 40 4 4 4 4 4 4 2 4 4 4 4 4 4 4 4 4 1 1 2 2 3 3 2 1 3 1 选修 2 0～2门 0～8学分 2 2 1 2 101203905 金属凝固 101203906 冶金过程模型与仿真 001000708 应用随机过程 001000709 数值分析 001000710 数学物理方程 001000711 应用统计分析 校公共001000712 现代数学基础 平台课 40 40 40 40 40 40 40 40 40 60 60 60 60 60 001000713 有限元法及其应用 001000714 高性能计算导论 001000715 数据库理论与实践 001000716 近代力学基础 补修课程 材料科学基础 本科 主干课 物理化学 固体物理 固体化学 半导体物理 同等学历或跨学科考入的研究生需补修二门 *按相应二级学科及导师的具体要求在给定范围内选择

*学位课不少于22学分，文献阅读研讨课不少于16学分，总学分不少于48学分。

Master Program for Materials Science and Engineering

1. Objective of the Program

1. Candidates are required to love Motherland, abide by law and disciplines, have sound moral integrity, be religious in scientific attitude towards academic work, have strong enterprise and sense of solidarity and collaboration. They should endeavor to contribute to science and the socialist modernization drive.

2. Candidates are also required to lay a solid foundation in basic theoretic and systematically special knowledge in their own fields; to be proficient in using a foreign language. They should be capable of being engaged in research and development in materials science and engineering, and capable of being put in independent charge of a special technological task.

3. Candidates should take an active part in physical exercises and have a good physique.

2. Duration of the Program

The program lasts two and a half years. The period of study for the in-service candidates can be extended to three years or three and a half years.

3．Main Interests

1. Phase transition of material and thermodynamic 2. Strengthening and toughening the metal material 3. Hydrogen behavior in metals and alloys

4. Preparation and application of amorphous, nanocrystal and powder materials 5. Corrosion and corrosion control of materials 6. Carbon based composite

7. Engineering of crystalline interface of alloys 8. New steels with special function

9. Research and application of die and mould materials 10. Modern surface engineering and technology

11. Research and application of steel plate in automobile

12. New style aluminum alloy material and forming technique 13. Casting alloy and solidification technique 14. Film electronic materials and devices

15. Information functional composite materials and applications

16. Electronic ceramic materials fabrication, properties research and application 17. Microelectric physical and chemistry

18. Material intelligence, material alertness, intelligent structure and system 19. Photoelectron material and device

20. Advanced materials with special function(magnetic, energy storing, super conductive, photo-catalysis)

4. Courses (See attached table)

5. Research and Dissertations

1. After acquiring required credits, the candidates are eligible for undertaking research on thesis or together with the courses study according to the arrangement of their supervisor.

2. Opening report should be performed in the 1st semester of the 2nd year. Selecting subject should combine with the foundation of this major and the important technique problem of the national economy. Opening report should be more than 5000 words, including the status quo of the development, the significance of the selecting subject, the research content, the schedule of the thesis work and the prospective result. Opening report should arrange more than 3 high-grade post teachers to judge, it is an opening report.

3. The medium-term examination should be performed in the middle of the period of the thesis. The students should present a written report for checking the progress of the thesis study. If there is a biggish departure of the thesis work, a yellow warning will be present.

4. The thesis should focus on the creativity, correctivity, and academic and appliable point. Every student should at least publish one paper in domestic core journals relevant to the research project and should be the first author in the publication or a applying patent(second applier) for apply the dissertation of the thesis.

5. After the thesis finished and recognize by 3 high-grade post teachers including the advisor, it is allowed to perform the pre-answer and the judge with the expert of the same major.

Curriculum

Category Course Number Course Name Theory and Practice of Scientific Socialism Natural Dialectics Public English Professional English Thermodynamics of Materials Control of Metal microstructure Principle of metal solidification Diffusion and Phase Transformation in Materials Microstructure and property of materials Physics and Chemistry for Microelectronic Materials Crystal Physics Thin Films and Devices Materials Science—Solid State Physics(II) Modern analytical techniques in materials science Experimental design of material science Corrosion and Control of Metals/ Research and development of titainium dioxide in phtocatalysis Materials for hydrogen storage and Environmental Embittlement of Metal Magnetic materials and metastable materials Principle of Modern plastic forming New Materials and Surface Treatment Technology for Die and Mould New Type of Aluminum Alloy Material and its Figuration Technology Period Credit Term Remarks 30 45 100 40 30 30 30 40 40 40 40 40 40 40 40 2 3 3 2 3 3 3 4 4 4 4 4 4 4 4 1 2 1,2 101000701 101101701 101101702 101101703 101101704 Basic and Specialized 101101705 Course 101101706 101101707 101101708 101101709 101101901 101101902 3 1 2 3 1 2 1 1 1 1 1 2 Political 001000701 Theoretical Course 001000702 First Foreign Language Academic Degree Courses 001000704 Four courses 8～12 points Required Courses 101101904 Literature Reading Seminar 40 4 1 Choose 6 out of these 101101905 101101906 101101907 101101908 101101909 40 40 40 40 40 4 4 4 4 4 2 3 3 1 2 Category Course Number 101101910 101000901 101000902 101101911 101000903 101101912 101101913 101101914 101101915 101101916 101203901 101101923 101203903 101203904 101203905 101203906 Course Name High strength steel sheets in automobile application Technology for Photoelectric Detection Micro-Nano electronic Materials & Devices Semiconductor Materials New Ic materiasl for packaging Functional Material and Their Applications Smart Materials Electro-ceramic Materials and Devices Microwave dielectric materials and relative devices Inorganic Composites and Their Applications Metallurgical Melting Models Hydrogen production from coke oven gas Preparation Science and Technology of New Materials s Using the Electromagnetic Field in Metallurgy and Material Production Metallic Solidification Modeling and simulation of metallurgical process Foundation of Material Science Physical Chemistry Solid Physics Solid Chemistry Semiconductor Physics Period Credit Term Remarks 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 60 60 60 60 60 Candidates with the same educational level or from other disciplines should take two or more make-up courses. 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 2 3 2 2 2 2 2 3 3 3 3 1 1 2 2 3 3 Academic Seminar Additive Courses Main Undergraduate Course 高分子化学与物理专业攻读硕士学位研究生

培 养 方 案

一、培养目标

1．努力学习马列主义、思想和理论，坚持党的基本路线，热爱祖国，遵纪守法，品德良好，学风严谨，具有较强的事业心和献身精神，积极为社会主义现代化建设服务。

2．掌握坚实的理论基础和系统的专业知识，具有从事科学研究工作和担负专门技术工作的能力，熟练掌握一门外国语。

3．积极参加体育锻炼，身体健康。

4．本专业主要从事聚合物分子设计与合成、高性能先进高分子工程材料及复合材料、生物医用高分子材料、具有光、电、磁、催化、仿生等特性的功能高分子材料和环境友好高分子材料的制备、性能和应用的研究。研究课题大多为当前国际高分子界关注的热点，并有广阔应用前景。本专业培养的研究生具有进行高分子科学基础理论研究和设计开发高技术新型高分子材料的能力，毕业后适宜于从事高分子及相关领域的科学研究、教学、新产品开发和生产技术管理等方面的工作。

二、学习年限

硕士研究生的学习期限为二年半 三、主要研究方向

1．聚合物分子设计与合成 2. 高性能先进高分子材料 3．功能高分子材料 4. 生物医用高分子材料 5. 环境友好高分子材料

四、课程设置（见表） 五、论文工作

1．在修完校学位课程和学科点学位课程及其他应修课程以后，可申请进入论文课题研究，但在开题报告前应提交与论文课题相关的文献专题报告。

2．开题报告的选题应与本专业的基础研究或国民经济中的重要技术问题相结合。开题报告应在5000字以上，包括发展现状、选题意义、研究内容、进度安排以及预期成果等。

3．开题报告应组织3名以上的高级职称教师进行评审，提出具体的评价和修改意见，不通过者应限期重做，重做仍不通过者应中止培养。开题报告应在第一学年结束之前完成。

4．在论文阶段的中期，进行阶段检查和中期考核。研究生应对论文进展和取得的成果等内容做出报告，并与导师就学位论文的完成情况、研究方法等进行交流和讨论。离进度要求偏离较大者，予以黄牌警告。

5．论文完成后，导师应对论文质量严格把关，并签署导师意见，不符合要求者，不能同意提交预答辩。预答辩一般在正式答辩前两个月举行。预答辩小组由3名以上高级职称教师组成。预答辩小组对学位论文进行综合评价，预答辩未通过者应在三个月至半年时间内对学位论文进行修改，由导师审阅同意后再次进行学位论文预答辩。预答辩通过后，按《上海大学学位授予工作细则》进行论文答辩。

6．研究生的论文依据《关于对研究生学位论文实行“双盲”评议抽样检查的规定》进行随机“双盲”评审。

高分子化学和物理专业硕士研究生课程设置

类 别 政治 学 位 课 理论课 第一 外国语 专业 基础课 专业课 课程编号 课程名称 学时 30 45 100 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 50 高分子物理 50 学分 2 3 3 2 4 4 4 4 4 4 4 4 4 2 4 4 4 4 4 4 4 4 4 开课 学期 1 2 1,2 3 1 1 2 1 2 2 1 3 3 2 1 3 1 2 2 2 1 2 同等学历或跨专业学生需补修 选修 0-2门 0-8学分 备注 001000701 科学社会主义理论与实践 001000702 自然辩证法 001000704 公共英语 101000701 专业英语 101201701 聚合物结构与性能 101201702 高分子分析和表征 101201704 高等高分子化学 101201901 高分子纳米复合材料进展 101201902 高性能工程塑料及复合材料 文献 阅读 研讨课 必 修 课 校公共平台课 学术 研讨课 101201903 导电性高分子及其复合材料 101201908 反应性高分子导论 101201907 生物医用及环境友好高分子 101201906 聚合反应工程 001000708 应用随机过程 001000709 数值分析 001000710 数学物理方程 001000711 应用统计分析 001000712 现代数学基础 001000713 有限元法及其应用 001000714 高性能计算导论 001000715 数据库理论与实践 001000716 近代力学基础 补 修 课

本科 主干课 高分子化学 Training Program for Master Candidates in

PolymerChemistry & Physics

1. Cultivation Aims

1. First, candidates are required to study hard in Marxism, Leninism, Mao Zedong Thought and Deng Xiaoping Theory. They should adhere to the party’s basic lines, be patriotic and abide by law and disciplines. Based on a sound moral integrity, a rigorous and scientific attitude towards academic work, and a strong sense of dedication, they should endeavor to contribute to the ongoing socialist modernization drive.

2. Candidates must have a firm theoretical foundation in their special fields and broad background in related areas. They should be competent in undertaking independent research and development, and capable of making original contributions to their scientific and technological discipline. They should be proficient in a foreign language.

3. Candidates must take an active part in physical exercises and keep fit..

4. The specialty focuses on the research of polymer design and synthesis, advanced polymer materials and composite materials, biomedical polymer materials, functional polymer materials with optical, electrical and magnetic properties, as well as environmentally friendly polymer materials, exploring new theory, new skill as well as new technology. The research subjects cover most focus in present polymer field and enjoy a broad prospect of application. The graduates in the specialty are competent in researching polymer basic theory and designing new high polymer materials, They will be qualified for research, teaching, new production developing and manufacturing technology management in polymer field .

2.Duration for the program

The program for master’s degree lasts two and a half years.

3. Subjects for Research

1. Polymer-Matrix Composite Materials 2. Functional Polymer Plastics

3. Curriculum ( See the table below ) 4. Biomedical Polymer Materials

5. Environmentally Friendly Polymer Materials

4. Thesis

1. Having finished school course , academic subject course and other necessary courses , the candidates are eligible for undertaking research towards a Master thesis , but they are required to submit, prior to the preliminary conference, 3 comprehensive reports related to thesis topic.

2. The topic is to evolve around the fundamental research or major technical issues of this specialty in the national economy. The report of the preliminary conference should be with a minimum of 5000 words, covering the situation of development, the significance of the topic, research content, the specific schedule and anticipated results, ect.

3. The preliminary conference is to be assessed by at least 3 lecturers with senior titles, who will offer specific assessment and advice for revision. Those who don' t pass the evaluation will rewrite the report within a set time , and those who fail again will lose the education opportunity.

4. Phase-by-phase examinations are to be conducted on the thesis. The candidates should make reports on its process and achievement and discuss with their tutors such problems as research process and research methods. Given the great discrepancy between the actual headway and the criteria , a warning will be given.

5. After the thesis is completed, the tutor should strictly examine the thesis and offer his advice. Thesis under standard can ' t be allowed to submit for preliminary defence, which normally takes place two months earlier than the formal one. Thesis will be evaluated by preliminary defence panel, including at least 3 lecturers with senior titles. Those who fail the preliminary defence should, after its revision, have his thesis rejudged within six months. Formal thesis defence is held according to “Shanghai University Academic Degree-conferring Detailed Codes”.

Curriculum

Category Political Theoretical Course First Foreign Language Course Number 001000701 001000702 001000704 101000701 101201701 Basic and Specialized Course 101201702 101201704 101201901 Course Name Theory and Practice of Scientific Socialism Natural Dialectics Public English Professional English Structure and Properties of Polymers Polymer analysis and Characterization Advanced polymer chemistry Development of Polymer & Nano Compound Material High-quality Engineering Plastics and Compound Material Conducting Polymer and its Compound Material Introduction to reactive Polymers Period Credit Term Remarks 30 45 100 40 40 40 40 40 2 3 3 2 4 4 4 4 1 2 1,2 3 1 1 2 1 Academic Degree Courses 101201902 Required Courses 40 4 1 Literature Reading Seminar 101201903 101201908 101201907 101201906 40 40 40 40 4 4 4 4 2 2 2 3 3 Biomedical and Environmentally Friendly Polymers Polymerization Reaction Engineering Polymer Chemistry Academic Seminar Additive Courses Main Undergraduate Course Polymer Physics 2 or more courses for graduates whose specialties don't conform to their undergraduate majors and equivalency diploma holders 微电子学与固体电子学专业攻读硕士学位研究生

培 养 方 案（一）

一、培养目标

本专业主要从事现代信息材料包括微电子材料、发光与光电材料、光显示材料及其器件等研究，探索新理论、新技术和新工艺，研究课题大多涉及国际前沿领域。本专业培养研究生具有设计与制备现代信息材料及器件的基础和研究能力，毕业后适宜于从事涉及信息产业的科学研究、教学和管理工作。

二、学习年限

硕士研究生学习年限为二年半。在职研究生的学习年限可适当延长半年至一年。 三、主要研究方向 1.微电子材料物理与化学 2.发光与光电材料、 3.有机发光显示 四、课程设置（见表） 五、论文工作

1.在课程修满48学分后，可申请进入论文课题研究，但在开题报告前应提交2篇与专业相关的科技综述报告。

2.开题报告在第二学年第一学期进行，选题应与本专业的基础研究或国民经济中的重要问题相结合。开题报告应在5000字以上，包括发展现状、选题意义、研究内容、进度安排以及预期成果等。

3.开题报告应组织3名以上的高级职称教师进行评审，为公开性报告。

4.在论文阶段的中期，进行阶段检查和中期考核，若离进度要求偏离较大予以黄牌警告。在完成论文并经过包括导师在内的3名高级职称教师认可后，组织论文预答辩和校内外同行专家评审答辩。

5.在申请学位前，至少在三大检索上发表与学位论文相关的学术论文一篇（第一作者）；或有一项专利证明或一项经省部级以上（含省部级）主持鉴定、验收的科研成果（排序前五名）。

微电子学与固体电子学专业硕士研究生课程设置（一）

类别 学 位 课 政治 理论课 第一 外国语 专业 基础课 专业课 文献 阅读 研讨课 课程编号 课程名称 学时 学分 30 45 100 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 60 60 60 2 3 3 2 4 4 4 4 4 4 4 4 4 2 4 4 4 4 4 4 4 4 4 开课 学期 1 2 1,2 3 1 1 1 2 2 2 2 2 2 2 1 3 1 2 2 2 1 2 同等学历或跨学科考入的硕士生补修二门 选修 0-2门 0-8学分 备注 001000701 科学社会主义理论与实践 001000702 自然辩证法 001000704 公共英语 101000701 专业英语 101202701 固体发光 101202702 微电子器件原理 101101709 材料科学学—固体物理II 必 修 课 101202902 现代材料分析测试技术 101000901 光电探测技术 101000902 微纳电子材料与器件 101000903 新型集成电路封装材料 101202903 有机电致发光器件 101202904 压电材料及应用 学术 研讨课 001000708 应用随机过程 001000709 数值分析 001000710 数学物理方程 校公共平台课 001000711 应用统计分析 001000712 现代数学基础 001000713 有限元法及其应用 001000714 高性能计算导论 001000715 数据库理论与实践 001000716 近代力学基础 补修课 程 本科 主干课 固体物理 固体化学 半导体物理 Culture Scheme of Microelectronics and Solid Electronics

for Master Students

1 Culture Purpose

This major focuses on research of modern information materials including microelectronic materials, lightening and photoelectric materials, OLED material and its devices to seek new theory, new technology and new process and most research subjects are in global frontiers. Students graduated should possess theoretical foundation and research abilities in design and fabrication of modern information materials, suitable for such careers as science research, teaching and management in information domain.

2 The fixed number of year

The fixed number of year for Master Students is two and a half years. The fixed number of year for the on-the-job Master Students may properly prolong half or one year.

3 Research areas

1. Physics and Chemistry of microelectronics materials 2. Lightening and photoelectric materials 3. Organic lightening display

4 Courses for Master Students (in table )

5 Thesis work

1. Students may apply to enter the period of the thesis research after 48 credits finished, but before opening report one should submit two piece of technical review report related with the major.

2. Opening report should be performed in the 1st semester of the 2nd year. Selecting subject should combine with the foundation of this major and the important technique problem of the national economy. Opening report should be more than 5000 words, including the status quo of the development, the significance of the selecting subject, the research content, the schedule of the thesis work and the prospective result.

3. Opening report should arrange more than 3 high-grade post teachers to judge, it is an opening report.

4. The medium-term examination should be performed in the middle of the period of the thesis. If there is a biggish departure of the thesis work, a yellow warning will be present. After the thesis finished and recognize by 3 high-grade post teachers including the advisor, it is allowed to perform the pre-answer and the judge with the expert of the same major.

5. Before applying the master's degree, applicant should not published less than 1 paper in the 3 international famous searches systems (1st author) or 1 patent (before 5th in order).

Microelectronics and Solid Electronics Courses

for Master Students

Category Course Number Course Name Period Credit Term Remarks 2 3 3 2 4 4 4 1 2 1,2 101000701 Professional English 101202701 Solid Luminescence State 40 40 3 1 1 2 Theory and Practice of Political 001000701 30 Scientific Socialism Theoretical Course 001000702 Natural Dialectics 45 Academic Degree Courses First Foreign Language 001000704 Public English 100 Basic and Microelectronic Specialized 101202702 40 Devices Principles Course Material Science--Solid 101202901 40 Physics II Analysis and 101202902 Characterization 40 of Materials Technology for 101000901 Photoelectric 40 Detection Literature Reading Seminar 101000902 101000903 New Ic materiasl for 40 packaging Micro-Nano electronic 40 Materials & Device 40 4 2 4 2 4 4 3 3 Required courses Organic 101202903 Electroluminescent Device 101202904 Academic Seminar 4 3 Piezoelectric Materials 40 and Applications Solid State Physics 60 60 60 4 2 2 Additive Courses Main Undergraduate Course Solid State Chemistry Semiconductor Physics Candidates with the same educational level or from other disciplines should take two or more make-up courses. 钢铁冶金专业攻读硕士学位研究生

培 养 方 案

一、培养目标

现代冶金技术发展的 特点是在其他学科的渗入下，不断深化和发展，因此本学科点将培养在冶金和金属材料加工制备方面具备广阔和坚实的理论基础，具有一定研究能力的复合型人才。在本科生培养以通才教学为特色的前提下，硕士生教学的目标为系统地掌握有关的专业知识，完成研究方法和自学能力的进一步训练，初步具备从事有关科技工作的能力（包括较熟练的阅读有关的外文资料的能力），具有良好科学素养。硕士论文应表现出一定的创新性。

二、学习年限

硕士研究生的学习年限为二年半。 三、研究方向

1. 纯净钢及二次精炼 2. 还原及资源综合利用 3. 铁合金精炼 4. 特冶及冶金反应工程 5. 冶金熔体物理化学

6. 过程数学模拟、控制及专家系统 7. 电磁冶金、连铸及凝固 四、课程设置（见表） 五、论文工作

1. 在课程修满44学分后，可申请进入论文课题研究。

2. 在导师指导下确定研究课题，应在第一学年结束前进行开题报告，学位论文应与本学科的基础研究或与国民经济中的重大技术问题相结合，开题报告应在5000字以上，内容包括发展现状、选题意义、研究内容、技术路线、进度安排和预期成果等。开题报告应公开进行，由3名以上高级职称教师进行评审。

3. 在论文阶段的中期，进行阶段检查和中期考核，若离进度要求偏离较大者，予以黄牌警告。

4. 在完成论文后，应由包括导师在内三名高级职称教师进行预答辩，预答辩通过者方可进行正式答辩，预答辩必须在正式答辩前二个月进行。预答辩未通过者应在三个月至半年时间内进一步对学位论文做出修改，由导师审阅同意后再次进行学位论文预答辩。学位的申请须按《上海大学研究生学位授予科研成果量化指标》的要求执行。

5. 学位论文依据《关于对研究生学位论文实行“双盲”评议抽样检查的规定》，实行双盲评审。

钢铁冶金专业硕士研究生课程设置

类 别 政治 理论课 第一 外国语 专业 基础课 专业课 课程编号 课 程 名 称 学学开课时 分 学期 30 45 2 3 1 001000702 自然辩证法 001000704 公共英语 101000701 专业英语 101203701 冶金热力学 101203702 冶金动力学 101203901 冶金熔体模型 101203903 新材料制备科学与技术 文献 阅读 研讨课 必 修 课 101203904 电磁场在冶金和材料制备中应用 2 1,2 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 2 4 4 4 4 4 4 4 4 2 4 4 4 4 4 4 4 4 4 3 1,2 2,3 1 2 2 3 3 1 2 1 3 1 2 2 2 1 2 选修 0-2门 0-8学分 100 3 备注 001000701 科学社会主义理论和实践 学 位 课 101203905 金属凝固 101203906 冶金过程模型与仿真 101203907 高温合金及钛合金 学术 研讨课 001000708 应用随机过程 001000709 数值分析 001000710 数学物理方程 001000711 应用统计分析 校公共平台课 001000712 现代数学基础 001000713 有限元法及其应用 001000714 高性能计算导论 001000715 数据库理论与实践 001000716 近代力学基础

Ferrometallurgy

1. Cultivation aim

The development of modern metallurgical technology has been marked by its integration with other disciplines for further development, so this specialty is designed to train versatile personnel who have a broad and solid theoretical foundation of metallurgy and metallic material processing and who have great abilities for independent research. After receiving a generalist undergraduate education in this specialty, the MS candidates should be capable of mastering the knowledge related to this specialty, enhancing their self-taught and research abilities (including the ability to read foreign materials in a proficient manner), and acquiring good qualities for scientific work. The MS thesis should display a considerable amount of originality.

2. Duration of the Program

The program usually lasts 2.5 years.

3. Research fields

1. Steel Refining and Metal Melting

2. Environmental Protection and Comprehensive Utilization of Resources During the Metallurgical Process

3. Metallurgical Process in the Physical Field

4. Special Metallurgy and Metallurgical Reaction Engineering 5. Physical Chemistry of Metal Melting

6. Mathematical Anlog for Process and Control & the Expert System 7. Continuous Casting and Solidification

4. Curriculum (see the table below)

5. Thesis

1. Only after acquiring the credit points as required can the candidates embark on their MS thesis writing or their proposed project.

2. By the end of the first academic years, all candidates should consult their supervisors about choosing a topic for their MS thesis or project and submit a kickoff report for their thesis or project. The degree thesis should be linked to the basic research within this specialty or some important technical problems in the national economy. A proposal of no less than 5000 words must be submitted within one year for the regular full-time candidates, or two years for the continuous master-doctoral candidates or part-time students, which contains a review of the literature, significance of the topic, problems to be studied, key points and special features, expected results and possible innovations. The number of cited references must be no less than 50. The candidates should deliver their proposal in the presence of 3 or 5 teachers, including at least 3 professors or associate professors, who will assess it.

3. In the middle of the research, the candidate should review, and provide a report on, his/her work carried out according to the plan in order to make sure that the research goes properly. A warning is given if major discrepancy from the plan is found.

4. Having completed the thesis and passed the preliminary defense and after necessary modifications, the dissertation is evaluated by no less than three senior examiners, including external professor(s), in closely related fields. A formal defense session is held upon approval of the dissertation by both the internal and external examiners. In case the candidate fails the preliminary defense, he/she is given 3 to 6 months to revise his/her thesis. Only after the supervisor reviews his/her modified thesis and thinks that it is up to the requirements can he/she apply for the formal defense. The application should proceed in accordance with “The Quantification Index on Research Achievements of Shanghai University for Master’s and Doctoral Candidates.”

5. An anonymous review of the thesis is practiced in the light of the stipulations specified in “Regulations Concerning Anonymous Reviewing of Sampled Degree Theses or Dissertations.”

Curricula in Steel Metallurgy

Category Academic Degree Courses Course Number Course Name Theory and Practice of Scientific Socialism Natural Dialectics Public English Professional English Metallurgical Thermodynamics Metallurgical Dynamics Metallurgical Melting Models Preparation Science and Technology of New Materials s Using the Electromagnetic Field in Metallurgy and Material Production Metallic Solidification Period Credit Term 30 45 100 40 40 40 40 40 40 40 40 40 2 3 3 2 4 4 4 4 4 4 4 4 2 1 2 1,2 3 1,2 2,3 1 2 2 3 3 1 Remarks Political 001000701 Theoretical Course 001000702 First Foreign Language 001000704 101000701 Basic and 101203701 Specialized Course 101203702 101203901 101203903 Required Courses Literature Reading Seminar 101203904 101203905 101203906 Modeling and simulation of metallurgical process High temperature alloy and 101203907 Titanium alloy Academic Seminar 有色金属冶金专业攻读硕士学位研究生

培 养 方 案

一、培养目标

本专业主要从事有色金属冶金过程开发和有色金属新材料制备技术的研究，培养学生掌握有色金属冶金专业扎实的基础理论和系统的专业知识，同时使学生能够具有较强的自学能力和开展科学研究的素养，具有较强的计算机应用能力和较高的科技英语水平，以适应新时代对高级人才的需要。

二、学习年限

硕士研究生的学习年限一般为两年半 三、主要研究方向

1. 有色金属电解和湿法冶金 2. 有色金属及其化合物超细粉体材料 3. 粉末冶金

4. 有色金属提取与精炼 5. 强磁场下电化学、复合镀 6. 有色金属新材料的制备及应用 四、课程设置 五、论文工作

1. 在课程修满规定的学分后，可申请进入论文课题研究。

2. 在导师的指导下确定研究课题，在第二学年第二学期前进行开题报告，选题应与本学科的基础研究或与国民经济中的重大技术问题相结合，开题报告应在5000字以上，内容包括发展近况、选题意义、研究内容、技术路线、进度安排和预期成果等。开题报告应公开进行，有3名以上高级职称教师进行评审。

3. 在论文阶段的中期，进行阶段检查和中期考核，若离进度要求偏离较大者，予以黄牌警告。

4. 在完成论文并经包括导师在内的3名高级职称教师认可后，组织校内外同行专家评审答辩。

有色金属冶金专业硕士研究生课程设置

类 别 政治 理论课 第一 外国语 专业 基础课专业课 课程编号 课 程 名 称 学时 学分 30 45 100 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 2 3 3 2 4 4 4 4 4 4 4 4 2 4 4 4 4 4 4 4 4 4 开课 备注 学期 1 2 1,2 3 1 必选 2 1 1 2 2 3 3 2 1 3 1 2 2 2 1 2 选修 0-2门 0-8学分 001000701 科学社会主义理论与实践 001000702 自然辩证法 001000704 公共英语 101000701 专业英语 101204701 有色冶金过程物理化学及其控制 学 位 课 101203702 冶金动力学 101204901 有色金属湿法冶金 101203903 新材料制备科学与技术 文献 阅读 研讨课 必 修 课 有色金属电解冶金方向文献阅读 电磁场在冶金和材料制备中101203904 应用 铝合金及其冶金质量控制文101204905 献阅读 101204903 101204906 纳米硬质合金制备技术文献阅读 学术 研讨课 001000708 应用随机过程 001000709 数值分析 001000710 数学物理方程 001000711 应用统计分析 校公共平台课 001000712 现代数学基础 001000713 有限元法及其应用 001000714 高性能计算导论 001000715 数据库理论与实践 001000716 近代力学基础 Training scheme of graduate student majored in nonferrous

metallurgy

1. Cultivation aim

The specialty is engaged in process development and research on preparation technology of new materials of nonferrous metals. The graduate students are trained to master steady basic theory and systematic professional knowledge of nonferrous metallurgy. They are also required to be with stronger self-study ability, attainment of conducting scientific research independently, great ability in computer utility and advanced standards of scientific English to meet the needs asking for higher talents of epoch..

2. Period of study

The study period of graduate student is usually two and half years.

3. Main research directions

1. Hydrometallurgy and Electrometallurgy of Non-ferrous Metals

2. Superfine powder materials of Non-ferrous Metals and their compounds 3. Powder metallurgy

4. Extractive metallurgy and Refining of Non-ferrous

5. Electrochemistry, Composite Electrodeposition in High Static Magnetic Field 6. Preparation and Application of the Novel Non-ferrous Metal Materials

4. Curriculum (see the table below)

5. Thesis work

1. Graduate student may apply for research project after finished required credit hours. 2. Instructed by supervisor, graduate student confirms the research project and make an opening report before the first semester of second academic year. The research project should be chosen to deal with the basic research of discipline or important technical problems combined with the national economy. The opening report of more than 5000 words should contains recent development, the meaning of selected project, content of the research, technical line, experiment scheduling and anticipated fruits. The opening report should be examined openly by over three teachers of senior title of technical post.

3. Graduate student is assessed in the mid-stage of thesis work. In the case of far from the plan, graduate student would be warned.

4. After graduate student finished the paper, which is ratified by three teachers of senior title of technical post including supervisor, experts inside and outside university are invited to examine thesis and attend thesis oral defense.

Curriculum of Graduate Student Majored in Nonferrous

Metallurgy

Category Course Number Course Name Theory and Practice of Scientific Socialism Natural Dialectics Public English Professional English Physical Chemistry and Control of Nonferrous Metals Metallurgical Processes Period Credit Term Remarks 30 45 100 40 40 2 3 3 2 4 1 2 1,2 101000701 101204701 Basic and Specialized Course 101203702 3 1 Metallurgical Dynamics 40 4 2,3 Political 001000701 Theoretical Course 001000702 Academic Degree Courses First Foreign Language 001000704 101204901 101203903 Required Courses 101204903 101203904 101204905 101204906 Academic Seminar

Literature Reading Seminar Literature reading on hydrometallurgy of nonferrous metals Preparation Science and Technology of New Materials Literature reading on electrolysis of nonferrous metals Using the Electromagnetic Field in Metallurgy and Material Production Literature reading on the aluminium alloys and its’ metallurgical quality control Literature reading on the technology of nanometer cemented carbide 40 40 40 40 40 40 4 4 4 4 4 4 1 2 2 2 3 3 2