Materials Science and Engineering
材料科学与工程
(080500)
1.Overview of The Program
This university major of material science and engineering was founded in 1952, offering bachelor’s degree. From 1955, this major started to offer the master’s degree. It was authorized to offer the Doctor’s degree in 1981 and was granted the permission to recruit post-doctors from 1985. Material Science and Engineering was listed as a key academic major of Ministry of Machinery and Electronics Industry in 1988, Ministry of Weaponry Industry Department in 1991, and National Defense Science and Technology Committeein2001. It is one of national “211 Project”, national “985 Project key academic majors, being incorporated into "Advanced Material Science and Technology Innovation Platform" in the second stage of “985”. In 2005, the Materials Science and Engineering became a Level-I discipline. After more than 50 years of construction, this academic major has built a research platform, which can support various research fields of material science and engineering and combine materials design, fabrication, analysis, characterization, and performance assessment. The total assets of the equipment amounted to over 90 million yuan. This major has the abilities of solving the critical problems of material science and engineering in the construction of national economy, and has been leading a large number of national key projects, making tremendous achievements in a large number of applications of materials science and engineering.
In the past five years, as the leading unit, this discipline has won more than 20 national and provincial awards, including three National Technological Invention Second Prize, one Special Prize of National Defense Science and Technology Progress Award, one National Teaching Achievement Award. This discipline possesses many distinguished teachers, including one Academician of Chinese Academy of Science, two Member of the Chinese Academy of Engineering, two chair professors of 973, one "Cheung Kong Scholar", of ministry of education, two winner of National Outstanding Youth Fund, one expert of National Experts with Outstanding Contributions, four winners of He-Liang-He-Li Award, seven professors in Thousand Youth Talents Plan, twelve professors in China Youth Science Fund Project and Trans-Century Training Program Foundation for the Talents By the State Education Commission. This discipline has constructed varies national and provincial supporting platforms, including National Science Key Lab of Impact Environment on Materials, National Flame-retardant Materials Engineering and Research Center, National Flame-retardant Materials Engineering and Research Center, National Flame-retardant Materials Engineering and Research Center, National High Technology Development Center Green Materials, National Engineering Research Center of Flame Retardant Materials, Collaborative Innovation Center of Electric Vehicles in Beijing, Beijing Higher Institution Engineering Research Center of Power Battery and Chemical Energy Materials, Beijing Key Laboratory of Construction Tailorable Advanced Functional Materials and Green Applications, Beijing key laboratory of environmental science and engineering, Beijing engineering research center of cellulose and its derivatives, Engineering Research Center of Fire-Safe Materials and Technology(Beijing Institute of Technology),Ministry of Education.
In 2018, the discipline of material science and engineering of Beijing Institute of Technology ranked in 50-100 in the world from QS World University Rankings, top 6 throughout the country, and No.136 in the world of ESI international ranking. The main research directions including:
(1) Mutilate and protective material: The main research objects are the warhead material and armor protection material.
(2) Advanced materials molding theory and technology: Including the theory and technology of liquid molding of special materials, the basic theory and engineering application research of the new technology of plastic processing of warhead materials, research of powder metallurgy technology, research of the numerical modeling and simulation technology of material forming process.
(3) Low dimensional materials physics and chemistry: mainly including the preparation of zero-dimensional, one-dimensional and two-dimensional nanomaterials, the study of materials performance, especially semiconductor nanomaterials.
(4) Functional polymer and flame retardant materials: Focusing on biomedical materials, Photoelectric functional polymer materials and flame-resistant materials.
(5) Materials surface engineering: Including the design and optimization of surface special functional coating materials, the numerical simulation of thermal spraying process, the preparation of coating materials, the performance testing and characterization of materials, the processing of surface special functional coating materials.
(6) Energetic material: Including the molecular design, synthesis and preparation of high energy density compound, energetic polymer, nanometer energetic materials, functional energetic auxiliaries, high performance solid propellant and charging technology, the progress and application of solid propellant forming, cladding layer and thermal barrier material technology, high-energy explosive mixture and charging technology.
(7) Energy and environmental materials:Studying various key materials and its engineering application technologies of new chemical energy sources and physical energy sources. The synthesis characterization, molecular design, simulation, performance prediction and economic evaluation of various new green energy materials. New theory, new method and new technology in preparation and application of various new green energy materials. New theories, new methods and new technologies in the preparation and application of energy materials, The failure mechanism of environmental materials and resource recovery and recycling technology of various waste. The theory problems in the treatment process of waste water, waste gas and solid waste. The basic theories, systematic scientific methods and practical applications of environmental planning and management.
2.Training Target
To cultivate innovative talents who insist on the Party's basic route, with national sense of mission and social responsibility, law-abiding, well-behaved, honest and trustworthy, physical and mental health, full of scientific spirit and international vision of high-quality and high-level.
Master students should master the solid basic theory and systematic expertise of the discipline, and have the ability to work in scientific research independently and make creative achievements in scientific or technical expertise.
Ph. D. students should have a solid and broad basic theory of the subject and systematic and in-depth expertise, have the ability to work independently in scientific research, and make creative achievements in scientific or technical expertise.
3.Length of Schooling
|
Subjects |
Academic Masters |
Academic Doctors |
|
Engineering |
2 years |
4 years |
|
Note: 1. The maximum length of schooling for academic masters is extended by 0.5 years on the basis of the basic length of schooling. 2.The maximum length of schooling for Ph. D. students is extended by 2 years on the basis of the basic length of schooling. 3. Academic Doctor who is especially outstanding and completed his dissertation in advance can graduate 1 year ahead of schedule. |
||
4.Curriculum and Credit Requirements
|
Course Classification |
Course Code |
Course Name |
Course Hours |
Credits |
Semester |
Compulsory/ Optional |
Master /Ph.D. |
Credits Requirement |
|
Public Courses
|
3700003 |
Chinese LanguageⅠ 基础汉语Ⅰ |
48 |
3 |
1 |
Compulsory |
Master /Ph.D. |
Master≥8 Ph.D.≥8
|
|
3700004 |
Chinese LanguageⅡ 基础汉语Ⅱ |
48 |
3 |
2 |
Compulsory |
Master /Ph.D. |
||
|
3700002 |
Outline of China 中国概况 |
32 |
2 |
1/2 |
Compulsory |
Master /Ph.D. |
||
|
Basic Course |
1700001 |
Numerical analysis 数值分析 |
32 |
2 |
1/2 |
Optional |
Master |
Master≥2 Ph.D.≥2
|
|
1701003 |
Science and engineering calculation 科学与工程计算 |
48 |
3 |
1/2 |
Optional |
Ph.D. |
||
|
1701007 |
modern regression techniques in data sciences 现代回归方法 |
32 |
2 |
1/2 |
Optional |
Master /Ph.D. |
||
|
Discipline Core Course
Discipline Core Course |
0901001 |
Solid state chemistry 固体化学 |
32 |
2 |
1 |
Optional |
Master /Ph.D. |
Master≥2 Ph.D.≥2
Master≥2 Ph.D.≥2 |
|
0901002 |
Theoryof Materials Processing 材料加工理论 |
32 |
2 |
2 |
Optional |
Master /Ph.D. |
||
|
0901003 |
Basic Theory and Application of Environmental Materials 环境材料基础理论及应用 |
32 |
2 |
1 |
Optional |
Master /Ph.D. |
||
|
Major Optional Courses
Major Optional Courses |
0901004 |
Novel Energetic Materials 新型含能材料 |
32 |
2 |
1 |
Optional |
Master /Ph.D |
Master≥6 |
|
0901005 |
Nanomaterials and Physics 纳米材料与物理 |
32 |
2 |
1 |
Optional |
Master /Ph.D |
||
|
0901006 |
Optoelectronic Materials and Devices 光电材料与器件 |
32 |
2 |
2 |
Optional |
Master /Ph.D |
||
|
0901007 |
Characterization Technique in Electrochemical Measurement and Analysis of Materials 材料电化学测试与分析表征技术 |
32 |
2 |
2 |
Optional |
Master /Ph.D |
||
|
0901008 |
Microstructural Analysis and Properties Characterization of materials 材料微结构分析与性能表征 |
32 |
2 |
2 |
Optional |
Ph.D. |
Ph.D.≥2
Ph.D.≥2 |
|
|
0901010 |
High-energy Beam Processing Technology 高能束流加工与技术 |
32 |
2 |
1 |
Optional |
Ph.D. |
||
|
0901011 |
Electrochemical Fundamentals and Application of Materials 材料电化学理论与应用 |
32 |
2 |
1 |
Optional |
Ph.D. |
||
|
Total Credits |
Master≥18credits Ph.D.≥14 credits |
|||||||
Notes:
1). Public Course
(1)Chinese Language: Set by International Students Center of BIT. All international students must take this compulsory course.
(2) Outline of China: Set by International Students Center of BIT. All international students must take this compulsory course.
2).Basic Course
If the mathematic courses listed in the chart can’t meet the requirement, different Programs can set their own Basic Course.
3) Discipline Core Course
Different Programs can set their own Discipline Core Course.
4) Major Optional Course
International students should choose course from their own program or from other programs. Under the guidance of the supervisor, Master international students can take undergraduate courses if needed. Ph.D. international students can take undergraduate courses if needed.
5.Practice Part
1. Academic Activity (1 credit)
International Graduate Students need to participate in academic activities, academic lectures and academic conferences of their own fields. Giving oral speeches on academic conferences, whether on or off campus, is highly recommended.
2. Innovative Practice (1 credit)
International Graduate Students should take scientific research training and social practices during their training period, which should be carried-out and evaluated by supervisors.
6.The Dissertation Related Work
1. Literature Review & Opening Report;2. Mid-Term Evaluation; 3. Dissertation Writing and Dissertation Pre-Defense(for Ph.D. students); 4. Thesis Defense; 5. Degree Conferment
More Details can be found in Regulations of Training Procedures for International Graduates of BIT , Regulations of Dissertation Pre-Defense for Ph.D. Students of BIT and Implementation Regulations on Academic Degree Conferrals of Beijing Institute of Technology
Time Nodes of Relevant Procedure
|
The Dissertation Related Work |
Master |
Ph.D. |
|
Literature Review& Opening Report |
Before week 1 of the 3rd semester |
Before week 1 of the 5th semester |
|
Mid-Term Evaluation |
—— |
Before week 1 of the 7th semester |
|
Thesis Pre-Defense |
—— |
Before review |
|
Thesis Defense |
At least 9 months after the Opening Report |
At least 18 months after the Opening Report |
|
Degree Application |
The application should be raised in a certain time after the Thesis Defense |
|
7.Course Syllabus
Course Code, Course Name, Class Hour, Credits, Course Description and Course Target, Teaching Method, Evaluation and Exams, Suitable Specialty, Prerequisites, Course Contents, Reference, and Lecturer Introduction.
