Undergraduate Training Program in the Department of Materials Forming and Control Engineering
Basic General information Training Undergraduate Training Program for 2020 Grade (in the Department of Materials programName: Forming and Control Engineering) Code: 202013071001001 Grade: 2020 SpecialtyMajor Materials Forming and Control Engineering Type of training Major course programCategory: Major Categories of 2 Study: College of Materials Science and Engineering has two first-level disciplines of materials science and metallurgy, which can be divided into three majors of Materials Science and Engineering (with four divisions of Materials Science, Materials Processing Engineering, Building Materials Engineering, and Decorative Materials Engineering), Materials Forming and Control Engineering, and Metallurgical Engineering. The mission of the undergraduate training program is to cultivate innovative talented undergraduates with excellent ideological character, profound humanistic literacy, solid knowledge of basic theory, excellent professional skills and strong sense of innovation, who will be innovators or leaders in scientific research, technological development, process design, production and operation management in the field of materials and metallurgy. A “1+3” model is adopted, i.e., one year of general courses plus three- years of interdisciplinary courses of two first-level disciplines of materials science and metallurgy: The students attend general courses in the first year, and then choose different departments for further professional courses, that meet the requirements of Overview of the both scientific advancements and social development. Major The School of Materials Science and Engineering of Chongqing University, taking categoryIntroduction: the advantages of the two primary disciplines of materials science and metallurgy, as well as the scientific and social requirements, implements the training to the undergraduate in the field of materials. The training arms the transfer of mono- disciplinary education to the crossed-disciplinary one. The first-grade discipline of materials include three sub-disciplines, they are Materials Science and Engineering (Materials Science, Materials Processing Engineering, Building Materials Engineering, and Decorative Materials Engineering), Materials Forming and Control Engineering, Metallurgical Engineering. The program allows students to be with excellent ideology, profound humanities, basic theories, strong professional skills and a strong sense of innovation. And the students, who are able to leading the future change, are expected to conduct independent researches, technology development, business management in the fields of materials and metallurgy. The “1+3” model is adopted, specifically, the students are required to study the courses in first-grade discipline for 1 year, and then are distributed to the sub-disciplines to receive continuous education. The specialtydepartment, of Materials Forming and Control Engineering, was created by merging three specialties divisions such asof metallic casting, forging and welding in 1998. Nowadays, the specialty department has the doctoral degree grant, and stands in the front rank in China, with is the National key discipline in Materials Science Professional Overview and the key discipline of Materials processing engineering. and the comprehensive of the Major: strength of specialty stands in the front rank in China. The specialty is among thethe core ones listed in “Made in China 2025 Plan”, and is the core specialty in Double -First-class Discipline Group in of Chongqing University. It focuses on advanced material forming and control fields such as green intelligent casting, advanced high-strength steel and titanium-aluminum-magnesium alloy material forming process and & mould technology, and robotic intelligent welding manufacturing. Up to May 2018, The outcomes of this specialty have has won one national second-class award prize, eight provincial and ministerial first prize-class awards, seven second-class award prizes and ten third prize-class awards, have authorized more than 70 invention patents, and have formulated two local standards in Chongqing. The specialty aims to cultivate "multi-disciplinary" high-level composite talents with equal emphasis on knowledge, ability and quality. The students were trained by the advanced education of "general foundation + professional module" and are highly valued by employers, with and the employment rate has reachedof 100% for many years. Graduates have played an important roles in fields and industries such as automotive, aerospace, transportation, energy (especially new energy), machinery, electronics, communications, software, construction, real estate, chemical industry, large equipment, automation and intelligent equipment, military industry, etc. Some of the excellent ones have become leaders of national party, government and large enterprises, and or experts who make outstanding contributions to the country.
Professional training objectives and graduation requirements 1. Training Objectives Cultivate students with comprehensive development of morality, intellect and physique, who understand the frontier of development of material forming and control engineering and related disciplines. Enables students with solid foundation of natural science, good professionalism and humanistic quality, systematically master the basic theory, professional knowledge and basic skills related to material forming and control engineering. The students are expected to grow up as senior talents who engage in manufacturing, R&D, design, consulting and management jobs. The following objects are: (1) Master a solid and broad natural science foundation, professional basic theory and systematic professional knowledge, familiar with the working principle of material forming and control process, process flow and production equipment, and understand the latest developmentfrontiers and development trends in the field of material forming and control. (2) Equipped with basic skills in engineering drawing, scientific calculation, experiment, test, literature retrieval, information synthesis and computer application Training objectives ability. Capable of design solutions to complex material forming and control and specifications: engineering problems, design material forming and control systems or processes to meet specific needs, and be able to demonstrate a sense of innovation in designing and solving complex engineering problems; Capable of reading literature in foreign language in this specialty and skillfully communicating in foreign language. (3) Have good professional ethics, humanistic qualities and a strong sense of social responsibility; Capable of considering comprehensive resource utilization, environmental protection, energy conservation and emission reduction as well as social, health, safety, legal and cultural factors in their work; Abide by engineering professional ethics, norms, and understand the responsibilities to be assumed; Have strong skills in organizational management, communication, environmental adaptation and teamwork; Have a certain international perspective. (4) Possess Have the abilities of career planning, independent learning and lifelong learning, and the abilities of engaging in scientific research, technology development, quality analysis, production organization, consulting and management in material forming and control engineering and related fields, and play an effective role as a technical experts or department leader.
2. Graduation Requirements Students should graduate with the knowledge, abilities and qualities to meet the following graduation requirements: (1) Engineering knowledge: master mathematics, natural science, engineering fundamentals and the professional knowledge required in the field of this specialty, and skillfully solve complex engineering problems in the fields of material forming and control engineering. 1-1) Equipped with knowledge of advanced mathematics, linear algebra and probability theory and other related mathematics, and the ability to apply them to practical engineering problems for mathematical modeling, optimization analysis and data forming. 1-2) Master basic knowledge of natural sciences such as physics and chemistry, and able to apply them to solve engineering problems such as process design optimization. 1-3) Master the theories of engineering mechanics, electrical and electronic technology, engineering drawing, mechanical design, fundamentals of materials and other related knowledge and able to use them to solve engineering science and technology problems. 1-4) Master the fundamentals of material forming thermodynamics, material forming transfer principles, material forming principles, and other related basic knowledge in material forming and control engineering, and able to use them to solve scientific and technical problems in material forming and control engineering. 1-5) Acquire specialized knowledge of Materials Forming and control engineering and solve complex engineering problems in the field of materials forming and control engineering by combining mathematics, natural sciences, and engineering technology. (2) Problem Analysis: Capable of applying the basic principles and knowledge of mathematics, natural science and engineering science to identify, express and analyze complex engineering problems related to the professional field of material forming and control through literature research in order to obtain valid conclusions. 2-1) Learn to decompose engineering problems and able to apply basic knowledge and theoretical methods such as mathematics, physics and chemistry to describe, identify and analyze engineering problems in the fields of materials forming and control. 2-2) Apply basic engineering knowledge to correctly analyze the research object for engineering problems in the field of material forming and control, and correctly express engineering design ideas by applying engineering design techniques and other related knowledge. 2-3) Combine knowledge of mathematics, natural sciences, and engineering technology to analyze complex engineering problems involved in material forming and control processes by applying professional knowledge of casting, forging, and welding, and propose solutions. 2-4) Search, summarize and apply basic principles and knowledge from literature to analyze complex engineering problems in material forming and control, and obtain valid conclusions through literature reading. (3) Design/develop solutions: capable of designing solutions for complex engineering problems in the field of material forming and control engineering, via Ca comprehensively apply application of the knowledge, theories and technical measures. Capable of designing the main equipment, process flow and process solutions to meet specific needs in this field, and while reflecting the sense of innovation in the design process. A, and takinge the social, health, safety, legal, cultural and environmental factors into account. 3-1) Master the full process production process and design methods, and understand the various factors that influence the process design objectives and technical solutions. 3-2) Based on process of casting, forging or welding production to design equipment, work flow with specific techniques and implement them correctly. 3-3) Capable of applying relevant basic and professional knowledge to provide solutions to solve complex engineering problems in this specialty. Capable of designing systems or process flows by taking the impacts of social, health, safety, legal, cultural and environmental factors into account, and make a sense of innovation go through out of the design. (4) Research: Capable of using scientific research methods to investigate complex engineering problems in material forming and control processes based on the basic principles, including design, experiments, analysis and interpretation of experimental data, and acquirements of reasonable and effective conclusions through information synthesis. 4-1) Explore and analyze solutions to complex engineering problems in Materials Forming and Ccontrol Eengineering through literature research based on basic principles of Materials Forming and Ccontrol. 4-2) Skilled in using scientific experimental research methods to design reasonable plans for solving complex engineering problems in this specialty, construct experimental systems and carry out experiments safely, and realize the correct collection of experimental data. 4-3) Correlate, model, analyze and interpret experimental data and results based on theories of material forming and control. Analyze and interpret the experimental data and results based on the theory of material forming and control, and to obtain reasonable and effective conclusions through information collection. (5) Use of modern tools: develop, select, and use appropriate technologies, resources, modern engineering tools, and information technology tools for complex engineering problems in Materials Forming and Ccontrol, including prediction and simulation of complex engineering problems and understand their limitations. 5-1) Understand the principles and methods of using modern instruments, information technological tools, engineering tools and simulation software commonly used in Materials Forming and Ccontrol, and understand their limitations. 5-2) Develop, select and use relevant technologies to solve complex engineering problems in Materials Forming and Ccontrol. Take the advantages of resources, modern engineering tools and information technology tools to prediction and simulation, and analyze their limitations. (6) Engineering and Society: Understand the laws and regulations governing production, design, research, and development related to the Materials Forming and Ccontrol industry, and reasonably analyze and evaluate the social, health, safety, legal, and cultural impacts on materials forming and control engineering practices and, provide solutions to complex engineering problems based on background knowledge of materials forming and control engineering, and understand the involved responsibilities. 6-1) Understand technical standards, intellectual property, laws and regulations in the areas related to materials forming and control engineering. Understand the impact of different societal cultures on engineering activities. 6-2) Analyze and evaluate the social, health, safety, legal, and cultural impacts of materials forming and control engineering practices. Capable of providing solutions to complex engineering issues, and understand the involved responsibilities. (7) Environment and sustainable development: Familiar with the guidelines, policies, laws and regulations, Understand and evaluate the influence of engineering practices in materials forming and control process on the eco-environment and the social sustainability. 7-1) Familiar with the guidelines, policies, laws and regulations on environmental protection and sustainable development, etc. Understand and evaluate the influence of various links in materials forming and control process on the eco-environment and the social sustainability. 7-2) Capable of evaluating the impact of complex engineering issues in the fields of material forming and control on the eco-environment and the social sustainability. (8) Professional standards: Provided with accomplishments in humanities and social sciences, social responsibility. Understand and abide by the codes of professional ethics, and take the related responsibility. 8-1) Provided with accomplishments in humanities and social sciences, social responsibility. Foster correct overlooks on the world, life and values, know about the realities of the country. 8-2) Understand the engineering ethics and codes of honesty, fairness and integrity, and consciously comply with them and fulfill their responsibilities in the practice of material forming and control engineering. (9) Individual and the team: Provided with skills in organization and management skills, presentation and social ability. Full of leadership and capable of the roles as the individual, member and leader in a team with multidisciplinary context. 9-1) Provided with sense of team spirit, Understand the significance and responsibility of the role in a team with multidisciplinary context. 9-2) Demonstrate skills in organizational management and teamwork, play important roles in a team with a multidisciplinary context . (10) Communication: Capable of effective communication with industry peers and publics with respect to the complex issues of materials forming and control engineering, including writing reports and manuscripts, presenting speeches, and articulating or responding to instructions clearly. And hHave some international perspective and be able to communicate and interact in a cross-cultural context. 10-1) Skilled in writing and communication. Capable of performing effective communicationse with industry peers and the public on complex engineering issues related to materials forming and control. 10-2) Master a foreign language, capable of reading and writing professional documents in foreign language. Understand the current situation and future trend in the domestical and international fields of material forming and control. Competent in communication, competition and operation in cross-cultural environment. (11) Project management: Understand and master the principles of management and economic decision-making methods of materials forming and control engineering, and apply them to the multidisciplinary engineering. 11-1) Understand and master the principles of engineering management and economic decision-making methods in enterprises or industries related to material forming and control. 11-2) Apply relevant engineering management principles and economic decision- making methods to engineering design and management in Materials Forming and Ccontrol engineering and its interdisciplinary fields. (12) Lifelong study: Aware of independent study and lifelong study, and capable of continuous study and development. 12-1) Provided with consciousness of self-directed study and lifelong study. 12-2) Capable of continuous study and abilities of adapting to the development, including the abilities of understanding technical issues, summarizing and asking questions, etc.
Achievement of Graduation requirements: Professional Core Courses
Professional Core Courses: Casting Processes-MPCE40101, Special Plastic Forming MPCE-40203, Metal Plastic Forming Processes and Molds (Bilingual)-MPCE40201, Mold Manufacturing Processes-MPCE40204, Welding Methods and Processes-MPCE40301, Special Casting-MPCE40102, Welding Structures-MPCE40303, Principles of Welding Metallurgy and Metal Weldability-MPCE40302, Casting Alloys and Melting-MPCE40103 Standard Course of Study
Full-time / Part-time: Full-time Duration of study (years): 4 Awarding degrees
Full time study/Education: undergraduate Degree: Bachelor of Engineering
Requirements on credits for graduation
Course Required Minimum Category Credits Elective Category Remarks Credits
General -- 8 education courses
14 -- Ideology and politics
4 -- Military
-- 8 Foreign languages
17 -- Public elementary Mathematics course 7.5 -- Physics
3.5 -- Chemistry
-- 3 Computer
-- 4 Sports
First-grade 4.5 -- Major discipline basic course
Sub-discipline 28.5 8 Professoinal elementary basic course
Sub- 9 8.5 disciplineProf essional course
2 -- Ideology and politics
1.5 -- Practical Physics sessionse 1 -- Chemistry
23 5
Personalized 2 6 module Compulsory credits: 117.5, Minimum elective credits: 50.5, Total credits: 168
Curriculum Schedule List of Courses
Course Extracu Experi categor Theoreti weeks rricular Recommen Subject Course Total Total class Class hour Schedul mental Remark yNature Course Name cal class in Extra ded Category Code Credits hour (on line) ed hour class s of the hour practice class semester hour course hour General education courses Optiona General Study and l Quality Courses 8 128 128 1-8
Public elementaryMajor basic course
Ideology and Foundations of MT10100 2 32 32 1 politics Ethics and Law
Ideology and MT00000 Situation and Policy 2 64 64 1-8 politics Outline of modern and contemporary Ideology and Chinese MT10200 3 48 politics historyOutline of 48 2 Modern Chinese History Introduction to Mao Zedong Thought and Ideology and the Theoretical MT20400 4 64 64 3 politics System of Socialism with Chinese Characteristics
Ideology and Basic Principles of MT20300 3 48 48 4 politics Marxism
Compul Military MET11001 Military Skills 2 3 weeks 3 weeks 1 sory Military MET11002 Military Doctrine 2 36 12 24 1
Advanced MATH1001 Mathematics 1 Mathematics 3 5 80 80 1 (Engineering) Advanced MATH1002 Mathematics 2 6 96 96 2 Mathematics 3 (Engineering) MATH1003 Mathematics Linear Algebra(II) 3 48 48 3 2 Probability Theory MATH2004 and Mathematical 3 48 48 4 Mathematics 1 StatisticsⅠ PHYS1001 University Physics Physics 3.5 56 56 2 3 II-1 PHYS1002 University Physics Physics 4 64 64 3 3 II-2 CHEM1000 University Chemistry Chemistry 3.5 56 56 1 0 I
Academic Literacy Foreign EUS10012 2 32 32 1 English (1-1) Languages
Academic Literacy Foreign EUS10022 2 32 32 1 English (2-1) Languages
Academic Literacy Foreign EUS10032 2 32 32 1 English (3-1) Languages
Academic Literacy Foreign EUS10013 2 32 32 2 English (1- 2) Languages
Academic Literacy Foreign EUS10023 2 32 32 2 English (2- 2) Languages Optional Foreign Academic Literacy EUS10033 2 32 32 2 Languages English (3- 2)
Advanced academic English viewing, listening and Foreign EDS20201 speakingAdvanced 2 32 32 3-4 Languages Academic English Audiovisual Foreign Thematic English EDS20301 2 32 32 3-4 Languages Reading English academic thesis Foreign EDS20401 writingEnglish academic 2 32 32 3-4 Languages paper writing Foreign Business English EDS20501 2 48 16 32 3-4 Languages Translation Foreign Information Technology 32 32 EDS20504 2 3-4 Languages Translation weeks weeks
Foreign Western Architectural EDS20505 2 32 32 3-4 Languages Culture and Translation
Foreign Technical English EDS20506 2 32 32 3-4 Languages Reading and Translation
Foreign Intercultural EDS20701 2 32 32 3-4 Languages Communication Foreign Cross-Cultural Business EDS20702 2 32 32 3-4 Languages Communication
Foreign Business English Reading EDS20801 2 3-4 Languages and Writing
International Business Foreign EDS20802 Negotiation and 2 32 32 3-4 Languages Communication
Foreign Study Skills for Academic EDS20803 2 32 32 3-4 Languages Success
Foreign EDS20804 Interrogative analysis 2 32 32 3-4 Languages Foreign EGP20102 TED talk listening 2 32 32 3-4 Languages Foreign News English EGP20103 2 32 32 3-4 Languages Audiovisual Foreign Presentation and EGP20201 2 32 32 3-4 Languages Communication Foreign EGP20202 English Speech 2 32 32 3-4 Languages Advanced Foreign Communicative English EGP20203 2 32 32 3-4 Languages viewing, listening and speakingSight and Sound Foreign EGP20401 Subject English Writing 2 32 32 3-4 Languages Foreign Critical reading and EGP20402 2 32 32 3-4 Languages writing Foreign English Poetry EGP20601 2 1 1 3-4 Languages Appreciation Foreign English Novel EGP20602 2 32 32 3-4 Languages Appreciation Foreign Introduction to Chinese EGP20701 2 32 32 3-4 Languages Culture
Foreign Introduction to American EGP20702 2 32 32 3-4 Languages Society and Culture
Foreign OnA First Look at Greek EGP20703 2 32 32 3-4 Languages Civilization Foreign Comparison of Chinese EGP20704 2 32 32 3-4 Languages and American Culture
Foreign Modern British Culture EGP20705 2 32 32 3-4 Languages and Society
English for International Foreign Study Literacy - EIUS20101 2 32 32 3-4 Languages Academic Listening and Interpretation (A) English for Foreign International Study EIUS20201 2 32 32 3-4 Languages Literacy - Academic Communication (A) English for Foreign International Study EIUS20301 2 32 32 3-4 Languages Literacy - Academic Reading (A) English for Foreign International Study 2 32 32 3-4 Languages EIUS20401 Literacy - Academic Writing (A) University Computer Computer CST11001 2 48 16 32 32 1 Fundamentals
Programming Computer 3 64 32 32 2 CST11011 Technology (C-based)
Programming
Computer Technology (Python- 3 64 32 32 32 2 CST11012 based) Programming
Computer Technology (C++ CST11013 3 96 32 64 2 based) Programming
Computer Technology (based on CST11014 3 64 32 32 2 VB.NET) Fundamentals of
Computer Computer Information 3 64 32 32 32 3 CST21001 Management Big Data
Computer Fundamentals and 3 64 32 32 4 CST21002 Applications
Sports optional project 1 32 32 1 Sports PESS22032 (basketball)
Sports optional project 1 32 32 1 Sports PESS22044 (soccer)
Sports optional project
Sports PESS22046 (air volleyball) 1 32 32 1
Sports optional project 1 32 32 2 Sports PESS22047 (air volleyball 1)
Physical Education
Optional Program ( 1 32 32 2 Sports PESS22067 Basketball 1)
Sports optional (Soccer
Sports PESS22070 1) 1 32 32 2
Sports optional items
Sports PESS22048 (air volleyball 2) 1 32 32 3
Physical Education
Optional Program ( Sports PESS22068 1 32 32 3 Basketball 2)
Sports optional (Soccer 1 32 32 3 Sports PESS22071 2)
Sports optional items 1 32 32 4 Sports PESS22049 (air volleyball 3)
Sports optional 1 32 32 4 Sports PESS22069 (basketball 3)
Sports optional (Soccer 1 32 32 4 Sports PESS22072 3)
First-grade disciplineProfessional basic course
Compul MSE10000 New Student Seminar 1 16 16 1 sory Engineering Drawing ME10102 3.5 56 56 2 (II) Sub-disciplineProfessional elementary course
AEME21410 Engineering Mechanics 3.5 58 54 4 3
Electrical Engineering 5 96 64 32 4 EE21350 Electronics (II)
Fundamentals of
Materials Science and 4 72 56 16 4 MSE21102 Engineering Fundamentals of
Thermodynamics of 3 48 48 5 MPCE30001 Material Forming Compul Material forming sory 2 32 32 5 MPCE30002 transfer principle
Material Forming MPCE31001 3 52 44 8 5 Principle Material Forming
Testing and Control 32 28 4 5 MPCE31002 2 Technology Manufacturing ME30170 3 52 44 8 6 Technology II
Fundamentals of 52 44 8 6 ME31102 Mechanical Design (II) 3
Literature Search and MPCE20003 1 16 16 3 Utilization Industrial Business MPCE20001 2 32 32 4 Management Economics of MPCE20002 2 32 32 4 Technology
Finite unit method and 2 34 30 4 4 MPCE21001 applications
Artificial intelligence 1 16 16 5 META30221 and its applications
Big Data Forming and 1 16 16 5 META30222 Mining
Mathematical
modeling methods and META30223 1 16 16 5 applications
MPCE30003 Professional English 2 32 32 5
3D Printing Optiona Technology and 2 32 32 5 l MPCE30006 Applications
Experimental design 2 32 32 5 MPCE30007 and data forming
Advanced Design and
Manufacturing 2 34 30 4 5 MPCE31003 Technology Composite materials
and their molding 2 32 32 6 MPCE30008 technology
MPCE31004 Surface Engineering 2 34 30 4 6
MPCE30004 Technical Writing 1 16 16 7
Fundamentals of
Material Forming 2 32 32 7 MPCE30005 Entrepreneurship Analysis of defects in thermal forming of 2 32 32 7 MPCE30009 materials and countermeasures
Advanced light alloy
and its molding 2 34 30 4 7 MPCE31005 technology Computational
Materials Science and 2 36 28 8 7 MPCE31006 Engineering Material MSE31006 characterization and 2 38 26 12 7 analysis Sub-disciplineProfessional course Material Forming MPCE40001 3.5 56 56 5 Engineering Material Forming
Compul CAD/CAE 3.5 80 56 24 6 MPCE41001 sory /CAM Non-destructive
testing of material 2 32 32 7 MPCE40002 forming
MPCE40101 Casting Technology 2.5 40 40 6
MPCE40102 Special casting 1.5 24 24 6 Casting alloys and MPCE40103 2.5 40 40 6 melting
Casting equipment and 2 32 32 6 MPCE40104 automation
Metal Plastic Forming Process and Tooling 2.5 70 30 40 6 MPCE40201 (Bilingual) ) Plastic molding
process and mold 2 28 28 6 MPCE40202 design
MPCE40203 Special plastic forming 2 24 24 6 Optiona l Mold manufacturing MPCE40204 1 22 22 6 process science Plastic forming
equipment and 1 16 16 6 MPCE40205 automation Welding method and MPCE40301 2 32 32 6 process Principles of welding
metallurgy and metal 2.5 40 40 6 MPCE40302 weldability
MPCE40303 Welding structure 2 32 32 6
Special welding and
precision joining 1 16 16 6 MPCE40304 technology
Welding equipment 1 16 16 6 MPCE40305 and automation
Practical sessions Metallurgical practice 4 4 ENGR14000 4 3 (Ⅰ) Weeks Weeks Comprehensive ME11121 1 1 Week 1 Week 3 training in cartography Electronics Internship ENGR14102 1 1 Week 1 Week 4 (II)
Basic Mechanical 2 2 Week 2 Week 5 ME35101 Design Course Design
Manufacturing ME45111 1 2 Week 2 Week 6 Integrated Practice Comprehensive Experiment on 1 1 Week 1 Week 7 MPCE42001 Material Forming Innovation 16 16 MPCE45001 Graduation design 10 8 weeks weeks 3 3 MPCE44001 Production Internship 3 S3 weeks weeks
Ideology and Practice of Moral 2 2 1 2 1 politics MT13100 Cultivation and Legal weeks weeks Foundation Comp Introduction to Mao ulsory Zedong Thought and Ideology and Socialist Theory 2 2 1 2 3 politics MT23400 System with Chinese weeks weeks Characteristics in Practice University physics Physics PHYS12011 1.5 48 48 2 experiments University Chemistry Chemistry CHEM12000 1 32 32 1 Experiment Ⅰ
Comprehensive 1 32 32 6 MPCE42101 experiment of casting module
Comprehensive 1 32 32 6 MPCE42201 experiment of forging module
Comprehensive
MPCE42301 experiment of 1 32 32 6 Optiona welding module l Professional Course 4 4 4 7 MPCE45101 Design (Foundry weeks weeks Module)
Professional Course 4 4 4 7 MPCE45201 Design (Forging weeks weeks Module)
Professional Course 4 4 4 7 MPCE45301 Design (Welding weeks weeks Module) Personalized module
Material Forming Comp Technology Practice 2 8 8 7 ulsory MPCE43001 (Innovation Practice Course)
Remarks
Personalized Credit Description:
Remarks:
Author
Name: Xiaohu Tian