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工程硕士材料工程领域专业学位研究生培养方案

发布时间:2018-06-21 编辑:李婷 来源: 浏览次数:

工程硕士材料工程领域专业学位研究生培养方案

(代码:085204 授材料工程专业学位)

一、培养目标

1掌握本领域坚实的基础知识和系统的专门知识;掌握本领域的基本研究方法与技能,具备一定的研究实际问题的能力;

2掌握并能熟练运用一门外国语;

3培养严谨求实的学习态度和工作作风;

4可胜任本领域的相关的工作。

二、主要研究方向

1材料加工工程;

2材料数字化成形;

3材料科学与工程;

4纳米科学与技术

三、学习年限与培养方式

培养方式为全日制脱产学习,专业硕士学位的学习年限一般2年。

四、学分要求与分配

总学分要求32学分,其中学位课学分要求18学分,研究环节要求14学分,具体学分分配如下表:

总学分

32学分

修课

学分

≥18学分

校级公共课程7学分,其中:英语2学分,思政类2学分、数学3学分

专业领域基础课2学分(必修)

专业选修课6 学分

实践教学(实验、设计、调查分析)3 学分

研究

环节

14学分

专业课程实习实践(含报告)

4学分

实践环节

4学分

专业实训(含报告)

4学分

开(选)题报告

1学分

必修

论文中期进展报告

1学分

必修

专业学位论文

8学分

必修

 

 

五、课程设置及学分分配

材料工程领域专业学位硕士研究生课程设置

类别

课程

课程

代码

课程名称

学时

学分

季节

开课单位

备注

学位课程

18学分

公共

课程

7学分

411.500

第一外国语(英语)

32

2

外语学院

必修

408.601

中国特色社会主义理论与实践研究

36

2

马院

011.700

应用高等工程数学

48

3

数学学院

408.602

自然辩证法概论(理工)

18

1

马院

选修

专业

领域

基础课

2学分

方向任选一

110.612

材料加工物理(国际化课程)

40

2.5

材料学院

必修

材料加工工程、数字化成形方向

110.601

先进材料成形技术及理论(国际化课程)

40

2.5

材料学院

110.602

现代模具技术(国际化课程)

32

2

材料学院

110.603

材料成形原理及数值模拟(国际化课程)

40

2.5

材料学院

110.608

材料成形界面工程(国际化课程)

24

1.5

材料学院

110.503

材料化学(国际化课程)

40

2.5

材料学院

必修

材料学、纳米科学与技术方向

110.507

纳米材料导论

32

2

材料学院

110.803

材料的微观尺度模拟(全英语课程)

32

2

材料学院

110.505

高分子物理和化学(国际化课程)

32

2

材料学院

110.512

陶瓷材料

32

2

材料学院

专业选修课限定选修6学分

方向任选一

110.514

材料分析与表征技术

40

2.5

材料学院

材料加工工程、数字化成形方向

110.614

有限元法/有限差分方法及应用

40

2.5

材料学院

110.619

现代精冲与模具技术

24

1.5

材料学院

110.604

激光制造技术

24

1.5

材料学院

110.605

软件工程及应用

32

2

材料学院

110.606

反求工程原理与应用

24

1.5

材料学院

110.610

3D打印材料及成形技术

24

1.5

材料学院

110.611

材料成形装备及控制技术

32

2

材料学院

110.618

试验优化设计

32

2

材料学院

110.502

纳米材料制备技术(国际化课程)

32

2

材料学院

材料学、纳米科学与技术方向

110.506

纳米器件导论

32

2

材料学院

110.501

电子制造技术

32

2

材料学院

110.508

粉末材料制备学

32

2

材料学院

110.513

表面工程学

32

2

材料学院

110.511

固态相变理论

32

2

材料学院

实践教学(实验、设计、调查分析)

3学分

650.702

参加学术讲座或学术报告6

1

材料学院

必修(材料工程综合必修)

110.621

材料工程综合实验

2

材料学院

650.704

专业设计

2

材料学院

110.622

项目或工程的调查分析报告

1

材料学院

110.623

行业(专业)发展报告

1

材料学院

实践研究环节14学分

650.705

专业课程实习实践(含报告)

4

材料学院

实践环节必修

学分4

650.706

专业实训(含报告)

4

材料学院

650.708

开(选)题报告

1

材料学院

必修

650.709

论文中期进展报告(硕)

1

材料学院

必修

650.710

专业学位论文(硕)

8

材料学院

必修

 

六、实践环节

专业硕士在校期间必须参加《专业课程实习实践》专业实训》实践环节。实践的内容可以围绕校内实验教学、导师的科研课题或工厂的实践进行。最终的报告以教学实验报告、调研报告、产品设计、案例分析或者项目管理分析报告等形式提交,每篇字数不少于10000字。专业硕士在校期间还必须参加校内外学术报告会的次数6次以上可以获得1学分。

七、学位论文

专业硕士的学位论文一般应结合工程实际进行,有明确的应用目标和应用背景。论文应包括应用背景分析,国内外研究现状和应用现状分析,实验方案,实验结果和分析,应用前景等部分内容。学位论文交两位以上具有高级职称评审专家评审通过后才可组织答辩。专业硕士答辩委员会由3人以上(不含指导老师本人)具有高级职称的专家组成。

八、学位授予

学生修满规定学分,达到相关要求,准予毕业,并颁发研究生毕业证书;达到毕业条件的研究生,其学位论文通过论文答辩和学校学位委员会的评审,由华中科技大学授予材料工程硕士专业学位。


Training Project for Master Degree Candidates of
Material Engineering

Code085204    Award Material Engineering Degree

I. Educational Objectives

1. Master solid fundamental and systemic specialized knowledge, master basic research method and techniques, and possess a certain degree of ability to solve practical problems.

2. Proficiently master in use of a foreign language.

3. Process of rigorous, realistic learning attitude and working style.

4. Qualified for related work in this field.

II. Main Research Areas

1. Material Processing Engineering.

2. Material Digital Forming.

3. Material Science and Engineering.

4. Nano- Science and Technology.

III. The Length of Schooling and Training Mode

Students are trained by full-time study, and the period of schooling for professional master degree is 2 years.

IV. Credit Requirement and Allocation

The total credits require more than 32, among which, degree course credits must be more than 18, and those of research require 14 credits at least. The distribution is as follows:

Total Credits

32 credits

Degree Courses

18 credits

Public Courses7 credits (2 for English, 2 for ideological and political class, 3 for mathematics)

Fundamental courses for profession2 credits (Required)

Optional courses for profession6 credits

Practice teaching(experiments, design, analysis)3 credits

Research Part

14 credits

Professional course for practiceincluding report

4 credits

Practice part

4 credits

Practice training

4 credits

Thesis proposal

1 credit

Required

The interim progress report

1 credit

Required

Degree thesis

8 credits

Required

 

V. Curriculum Provision and Credit Allocation

Curriculum for Master Degree Candidates of Material Engineering

Category

Courses

Code

Course Name

Credit Hours

Credits

Season

Institute

Remark

Degree Courses 18 Credits

Public Courses7 credits

411.500

The first foreign language (English)

32

2

Autumn

School of Foreign Language

Required

408.601

Theory and Practice of Scientific Socialism with Characteristics

36

2

Autumn

School of Marxism

011.700

Application of advanced engineering mathematics

48

3

Autumn

School of Mathematics

408.602

Introduction of dialectics of nature (Sience and engineering)

18

1

Autumn

School of Marxism

Elective

Fundame-ntal Courses for Profession2 credits

110.612

The physics of materials processing (International course)

40

2.5

Autumn

School of Material

Compulsory

Directions of materials processing engineering and digital formation

110.601

Advanced material forming technology and theory (International course)

40

2.5

Autumn

School of Material

110.602

Modern mold & die technology (International course)

32

2

Autumn

School of Material

110.603

Material forming principle and numerical simulation (International course)

40

2.5

Autumn

School of Material

110.608

Engineering of material forming interface (International course)

24

1.5

Autumn

School of Material

110.503

Materials chemistry (International course)

40

2.5

Autumn

School of Material

Compulsory

Directions of material science, nano science and technology

110.507

Introduction of nano materials

32

2

Autumn

School of Material

110.803

Micro scale simulation of materials (taught in English)

32

2

Autumn

School of Material

110.505

Physics and chemistry of polymers (International course)

32

2

Autumn

School of Material

110.512

Ceramic materials

32

2

Autumn

School of Material

Optional Courses for Profession6 credits

(pick one direction)

110.514

Analysis and characterization techniques

40

2.5

Autumn

School of Material

Directions of materials processing engineering and digital formation

110.614

Finite Element Method/ Finite Difference Method and Application

40

2.5

Autumn

School of Material

110.619

Modern Fineblanking Processing and Die Technology

24

1.5

Autumn

School of Material

110.604

Laser manufacturing technology

24

1.5

Autumn

School of Material

 

110.605

Software engineering and application

32

2

Autumn

School of Material

110.606

The principle of reverse engineering and application

24

1.5

Autumn

School of Material

110.610

Materials and forming technology in 3D printing

24

1.5

Autumn

School of Material

110.611

Equipment and control technology of material forming

32

2

Autumn

School of Material

110.613

Modern control theory and interface technology

24

1.5

Autumn

School of Material

110.502

Nano material preparation technology(International course)

32

2

Autumn

School of Material

Directions of material science, nano science and technology

110.506

Introduction of nano device

32

2

Autumn

School of Material

110.501

Electronic manufacturing technology

32

2

Autumn

School of Material

110.508

Powder material manufacture

32

2

Autumn

School of Material

110.513

Surface engineering

32

2

Autumn

School of Material

110.511

Solid state phase transition theory

32

2

Autumn

School of Material

Practice Teaching (Experim-ent, design, analysis)

3 credits

650.702

Participate in academic seminars or academic report

1

School of Material

Required

110.621

Comprehensive experiment of Materials Engineering

2

School of Material

650.704

Professional design

2

School of Material

110.622

Survey report on the project

1

School of Material

110.623

Industry (Professional) Development Report

1

School of Material

Practice research

14 credits

650.705

Professional course for practiceincluding report

4

School of Material

Practice Part

Compulsory4 Credits

650.706

Practice training(including report)

4

School of Material

650.708

Thesis proposal

1

School of Material

Required

650.709

The interim progress report(master)

1

School of Material

Required

650.710

Degree thesis(master)

8

School of Material

Required

VI. Internship and Practical Training

Professional postgraduates must compose more than two practice report during study period. The reports can be organized around practice teaching within campus, tutors’ scientific research task or internship in factory, which are in the form of teaching experiment report, research report, product design, case analysis or analysis report of project management. Each report at least have 10000 words. Every report can acquire 2 credits if it is qualified by the review of instructors. Postgraduates can get 1 credits by attending at least 6 symposiums both in and outside the campus.

VII. Degree Thesis

Professional master's degree thesis should be composed considering the engineering practice, with a clear target and application background. The thesis should including application background analysis, experiment scheme, experiment result and analysis, application prospect and so on. Thesis oral defense can only be organized until the approves of two expert with senior professional titles, to whom the thesis are hand. Professional master’s thesis oral defense committee should be composed of more than 3 expert with senior titles, not including the tutor.

VIII. Degree Awarding

Postgraduates can be permitted to graduate if they finish the required credits and meet the relevant requirements, awarded with the certificate of graduation. The qualified graduates also will be awarded with master degree of material engineering by Huazhong University of Science and Technology, if the thesis has passed the thesis oral defense and the review of school degree committee.