材料科学与工程留学研究生培养方案(中英文)
Brief Introduction to Degree Program in Materials Science and Engineering
(080500)
Ⅰ.专业简介 (Brief Introduction to the Discipline)
西南交通大学材料科学与工程专业创建于1905年,是中国高等教育历史上最古老的专业之一。目前,这个专业的ESI世界排名为前0.6%,在全球材料科学研究机构中排名第446位。
The discipline of Materials and Engineering of Southwest Jiaotong University (SWJTU) was founded in 1905 and it is one of the oldest disciplines in Chinese higher education history. This discipline has moved into the top 0.6% of ESI world ranking, which ranked No. 440 in the global ESI Materials Science.
Ⅱ. 培养目标(Program Objectives)
【博士研究生】
培养德、智、体全面发展的高层次学术和技术创新人才,掌握坚实宽广的材料科学与工程基础理论和系统深入的学科专门知识,熟知科学技术发展前沿和方向,至少熟练掌握一门外国语,具有独立和创造性从事科学研究、担负专门工程技术攻关、组织实施相关重大科技攻关项目的能力,具备较强的国际竞争能力的行业领军人才的潜力及素质,能够在科学研究或专门技术上做出创造性成果的高级科技人才。毕业后,可在材料科学与工程及相关领域从事新材料、新工艺、新技术、新产品、新装备开发和材料理论研究,也可在高等院校、科研院所从事教学、科研以及管理等工作。
【学术型硕士研究生】
本一级学科主要培养研究生掌握材料科学与工程领域扎实的基础理论和系统的专门知识,主要培养研究生具备以下一个方面及以上的知识、能力和素质:
(1)掌握材料的设计、制备、结构、性能及其相互关系等方面专业知识,具有较强的解决材料研发过程中实际问题的能力和良好的职业素养,具有较强的分析与独立解决问题能力及创新能力。
(2)掌握先进的材料加工技术、工艺、控制与装备以及材料修复与再制造等方面的基础理论和工程知识,具备材料结构、性能、连接及其与机械、电气控制和信息等专业的学科交叉和渗透能力,且具有较强的解决材料成型加工过程中工程问题的能力和良好的职业素养。
(3)掌握扎实的材料物理与化学基础理论和材料科学与工程领域系统的专门知识,并具备化学-物理-生物-材料-环境等多学科交叉和渗透能力,很好地掌握外语与计算机运用能力。
毕业研究生能在材料制备、结构与性能调控、材料加工工艺方法与设备等领域,继续攻读博士学位或在高等院校、科研院所、大型企业以及在政府相关部门从事科学研究、技术开发、教学和管理等工作。
【全日制硕士专业学位研究生】
培养材料工程领域基础扎实、素质全面、工程实践能力强并具有创新能力的应用型高层次工程技术和工程管理人才,通过材料工程领域相关基础理论和专门知识的学习,了解本领域的发展动向,掌握必要的实验技能和材料设计方法,熟悉常见材料制造、加工过程的质量控制方法、性能检测、分析方法以及加工工艺及装备。
毕业研究生能在材料制备、结构与性能调控、材料加工工艺方法与设备等领域,在高等院校、科研院所、大型企业以及在政府相关部门从事科学研究、技术开发、教学和管理等工作。
【PhD student】
The discipline cultivates high-level academically and technologically innovative talents with integrated development of morality, intelligence and physique. Graduated students should master various fundamental theories of material science and engineering and systematical professional knowledge on one hand. On the other hand, graduated students should be familiar with the direction and frontier of science and technology development and master a foreign language proficiently. Abilities of dependently and innovatively working on scientific researches, taking responsibility of key problems of engineering technology and organizing to carry out the program to tackle key technology problems can be obtained. The potential and quality for professional leaders with great international competitiveness can be obtained. And also, advanced scientific and technological talents should make innovative contributions in scientific and professionally technological fields. After graduation, one could work on the development of novel materials, crafts, technologies, products and instruments and investigate on material theories, while one could engage in teaching, scientific researches and management in colleges or researching institutions.
【Master of academic degree】
This discipline aims at cultivating postgraduates with solid fundamental theories and systematical knowledge in the field of material science and technology. The necessary knowledge, ability and quality are as follows:
(1) Postgraduates should master the professional knowledge about material design, preparation, structure, properties and the relationship among them. The strong ability to solve the practical problems in material research and development and good professionalism can be obtained. Strong abilities to analyze and dependently solve problems and innovative abilities are also needed.
(2) Postgraduates should master fundamental theories and engineering knowledge about material processing technologies, crafts, control, instruments and material repair and re-manufacturing. Abilities to cross material structure, properties, connection with mechanics, electric control and information and penetrate from one into another can be obtained. The strong ability to solve the engineering problems in material processing and molding and good professionalism can be obtained
(3) Postgraduates should master the solid fundamental theories of material physics and chemistry and the professional knowledge in field of material science and engineering. Abilities to cross and penetrate among different subjects of chemistry, physics, biology, material and environment can be obtained. Master the ability to apply the foreign language and computer.
Masters could engage in PhD studies or work on the scientific research, technology development, teaching and management in colleges, scientific institutions, large enterprises and government-related departments in fields of material preparation, structure and property control, material processing crafts and methods, instruments and so on.
【Master of professional degree】
Cultivate high level engineering technological and managing talents with solid foundation, comprehensive quality, strong engineering practical ability and innovative ability. Through learning fundamental theories and professional knowledge in the field of material engineering, one should know about the developing direction of the field, master necessary experimental techniques and material designing methods, get familiar with common material preparation, mass controlling methods in processing, property testing and analyzing methods and processing crafts and instruments.
Masters could work on the scientific research, technology development, teaching and management in colleges, scientific institutions, large enterprises and government-related departments in fields of material preparation, structure and property control, material processing crafts and methods, instruments and so on.
Ⅲ. 研究方向(Research Orientation)
1. 纳米材料与器件
2. 高性能复合材料
3. 功能材料
4. 高分子材料
5. 超导与能源材料
6. 表面科学及技术
7. 生物材料及医疗器械
8. 轨道交通用关键材料及其服役行为
9. 先进陶瓷及其制备技术
10. 材料加工自动化
11. 先进焊接材料及工艺
12. 焊接结构检测及评价
13. 材料服役行为及评价
1. Nanomaterials and devices
2. Composites with high performances
3. Functional materials
4. Polymer materials
5. Superconducting and energy materials
6. Surface science and technology
7. Biomaterials and biomedical apparatus
8. Key materials for rail transit and their service behaviors
9. Advanced ceramics and their preparation technologies
10. Materials processing automation
11. Advanced welding materials and welding technology
12. Detection and evaluation of welding structure
13. Service behaviors of materials and evaluation
Ⅳ. 课程设置(Curriculum)
Type |
Code |
Name |
Credit/hours |
Semester |
Evaluation |
Ⅰ |
Ⅱ |
Ⅲ |
公共课 Public Course |
51391001 |
Basic Chinese I 基础汉语I |
2 |
√ |
|
|
考试examination |
51391002 |
Chinese Culture 中国文化 |
2 |
√ |
|
|
考试examination |
51391003 |
Basic Chinese II 基础汉语II |
2 |
|
√ |
|
考试examination |
51391004 |
China Overview 中国概况 |
2 |
|
√ |
|
考试examination |
54394001 |
Contemporary China 当代中国 |
1 |
|
√ |
|
考察Performance Review |
专业课 Professional Course |
50933003 |
Material Physics and Chemistry材料物理与材料化学 |
2/32 |
√ |
|
|
报告 Report |
50933004 |
Crystalline Structure and Dislocation theory 晶体结构与位错理论 |
2/32 |
|
√ |
|
报告 Report |
50924006 |
Material Performance 材料服役性能* |
2/32 |
|
√ |
|
报告 Report |
50934002 |
Nanomaterials and Functional Materials 纳米及功能材料* |
2/32 |
|
√ |
|
考试examination |
50934003 |
Structure and Composite 结构与复合材料 |
2/32 |
√ |
|
|
报告 Report |
50934005 |
Advanced Ceramic and Powder Metallurgy 先进陶瓷及粉末冶金* |
2/32 |
|
√ |
|
考试examination |
60934004 |
Polymer Structure and Property 高聚物结构与性能 |
2/32 |
√ |
|
|
考试examination |
60933001 |
Material Characterization and Analysis Technology 材料表征分析技术※ |
2/32 |
√ |
|
|
考试examination |
60933006 |
Advanced Material Molding Processing Theory and Method 先进材料成型加工理论与方法 |
2/32 |
√ |
|
|
报告 Report |
70934001 |
Material Surface and Interface 材料表面与界面 |
2/32 |
√ |
|
|
报告 Report |
|
|
|
|
|
|
|
必修环节Segments |
|
Academic Lectures(≥5 lectures) 学术报告(至少参加5次) |
|
|
|
|
考察Performance |
|
Scientific Research Practice科研实践 |
|
|
|
|
考察Performance |
|
Academic Lectures(≥8 lectures, as a lecturer once) 学术报告(至少参加8次,其中本人主讲1次) |
|
|
|
|
考察Performance |
|
Frontier Technology Seminars(≥5 lectures) 前沿技术专题(至少听5个) |
|
|
|
|
考察Performance |
5级课程:硕士研究生;6级课程:硕士、博士研究生;7级课程:博士研究生