1.Materials Scienceand Engineering (Including Experimental Class)

Objective:Aims to cultivateinterdisciplinary engineering talentswith the concept ofharmoniousdevelopment of materials and environment, theliteracyof humanities and social sciences,thorough knowledge basisof natural science, engineering and professional knowledge of Materials Science and Engineering, the awareness of lifelong learning and the ability to expand their own knowledge. The students will be with the spirit of innovation, entrepreneurship, global vision andcapabilities insocial communication and organizational management.

Curriculum:Duringthe first twoyears, students are supposed to learnMathematics, Physics, Chemistry, Computer Language, Englishandanotherrequired basic knowledge. Through the study of theIntroduction to Materials Science and Engineering, students can understand the overall curriculum framework of the material. Then, through the study of theFundamental of Material Science, Material Engineering, Material Performance, Material Analysis Methods and the Fundamentals of Eco-Materials, students can learn the basics of material science.During selected courses, based on theformersystematic study of the basic knowledge of the materials, students choose the professional courses in modules:Metal Materials, Inorganic Materials and Material Processing. In addition, each module will develop self-study courses according to its characteristics to cultivate students'self-studyability. Each module will also offer related experiment courses so that students can select topics independently and complete the material production, testing and evaluation after learning all courses of the module, so as to connect the basic knowledge they have learned with the professional knowledge, complete the comprehensive process from experiment design, sample preparation,outcome evaluation and enhance their practical abilitieswhen learning theoretical analysis.

Career: Undergraduatescan be engaged in the production, processing and trade of materials and related fields, including construction, automobile manufacturing, electromechanical, metallurgy, electronics, pharmaceutical, high-tech enterprises and their management departments, for technology development, process and equipment design, new material research, production technology management, quality testing of materials and material imports.

2.Resource Recycling Science and Engineering (Including Experimental Class)

Objective:Well-educatedprofessionalsare cultivatedwith thedeeptheoretical basis, good disciplineaccumulationand strongabilitiesinengineering practice of Resource Recycling Science and Engineering to meet the needs of social development;andinterdisciplinary engineering talents are cultivated with the concept of the harmonious development of materials and environment, the literacy of humanities and social sciences, thorough knowledge basis of engineering and professional knowledge of Resource Recycling Science and Engineering.They are also capable of applyingprinciplesof engineeringto addresscomplex engineering problems related to resource circulation.Besides, students will havethe spirit of innovation and entrepreneurship, global vision,capabilities insocial communication and organizational management.

Curriculum:Duringthe first twoyears, students are supposed to learnMathematics, Physics, Chemistry, Computer Language, Englishandotherrequired basic knowledge. Then through the study of basic courses such asIntroduction to the Science and Engineering of Resource Recycling, Industrial Ecology and the Fundamental of Eco-Material,students will master the basic laws of the relationship between resource recycling and material composition, organizational structure,andperformance and preparation process. The resource recycling experiment platform is afeaturedpractice course for this major. After studying this course, students can systematically understand and master the principle of resource recycling, basic experimental skills, scientific research methods and enhance their practical abilitiesin resource recycling science and engineering. Students further systematically and deeply learn the professional knowledge of resource recycling in their selected courses.

The curriculum offers 5 courses of selected major-limited courses forResourceRecyclingScience andEngineering and a self-study course based on characteristics of the major to cultivate students'self-studyability. Through the practical training of experimentsand graduation projects, students can independently complete the comprehensive routines of resource recycling process design, life-cycle detection and evaluation and outcome analysis with big-picture thinking and application of professional knowledge.

Career:Graduateshave wide career optionsand canworkinindustrial planning, technological development, process and equipment design, cleaner production evaluation and consultation in resource recycling, building materials, metallurgy, new material industry, raw material industry and other industries related to comprehensive utilization of resources.

3.Nanomaterials andTechnology (Including ExperimentalClass)

Objective:Focusing on the talents demand and development for the emerging industries in advanced manufacturing, semiconductor technology, etc.This major aims to cultivate high-quality applied science professionals with global vision, independent innovation ability, and interdisciplinary advantages forimportant national needs. The students have good humanistic quality, solid mathematical, physical and computer foundation; have theprofessional qualificationsof the design, preparation and application of advanced nano materials and devices, and adapt to the developing requirements of information, energy and environment industry, etc.

Curriculum:The students mainly study and master the basic and engineering knowledge ofMathematics, Physics, Chemistry, Machinery, Electrical Engineering, Electronics, Computer and English. With the discipline study plan, such as, Mathematical Physics Methods in Materials Science, Solid State Physics, Quantum Mechanics, Introduction to Semiconducting Materials and Devices, Nanomaterials Characterization, Python for Scientific Computing in Materials Design, etc, the students are enhanced to understand the internal laws between the compositions, structures and performance of nano materials, and have the scientific concept and technical abilities to improve the material performance by using nano materials and technology; by the study of the courses of Electron Microscopy and Analysis, Micro- and Nano- Mechanics, Nano Energy Materials, Nano Optoelectronic Materials, Nano Magnetoelectric Materials, Nano Ferroelectric Materials, etc., and thepractical courses, such as Experiments of Mirco- and Nano-fabrication,Experiments of Performance Research in Semiconductor Materials,Experiments of Synthesis and Preparation Methods of Nanomaterials,Experiments of Nanomaterials Characterization and Structural Analysis Methods,Comprehensive Experiments of Nanomaterials,Innovative Design of Nanomaterials and Devices, students are strengthen the practical abilities; further by the study of major or practical electives, such asExperiments of Nano Sensor Materials,Experiments of Nano Smart Devices,Introduction to Energy Materials and Devices, Nano Catalytic Materials, Nano Environmental Materials, Introduction to Laboratory Safety, Resource Economics, etc, as well as internship, graduation project and other comprehensive practices help students to understand the development trend, industry standards and regulations of nano materials and technology systematically, as well as their social, environmental and economic problems in engineering application, and then by using nanomaterials and technologies with scientific and objective judgments, the students can solve complex engineering problems in the fields of information, energy and environment. The courses related to nanomaterials and technology in this major are mainly taught by the teachers in the leading edge of nano field scientific research. The combination of scientific research and teaching can strengthen students' learning and innovation abilities.

Career: Graduates have manyemployment options, in enterprises and institutions, foreign-funded enterprises and listed companies; they also can pursue studying abroad, recommending or obtaining postgraduate, double degree, master of engineering and other ways for further study. A complete program system for undergraduate, master's and doctor's graduate training, which enrolls more than 200 master's and 50 doctor's graduate students every year, providing a broad development space for undergraduate's study and further study. Graduates are mainly employed in information, energy, environment, biology, medicine, aerospace, national security and other industries. They are engaged in the design, preparation and application of nano materials and technical management.

4.Mechanical Engineering

Objective:To meet the national and capital talent needs of the development of modern science and technology and inBeijing and aimto the advanced manufacturing industry, high-qualityapplication-orientedengineering talentsare cultivated withinnovation awareness and international visionwho master the core basic theories, professional knowledge and practical abilitiesof modern mechanical design, mechanical manufacturing, mechanical and electrical control and testing technology.

Curriculum:

Core courses:EngineeringGraphics, Theoretical Mechanics, Material Mechanics, Mechanical Principles, Mechanical Design and Mechanical Manufacturing.

Featured courses: ElectricalEngineering and Electronic Technology, Sensing and Testing Technology, The Fundamental of Control Engineering, Training for Mechanical Engineering, Practice for Engineering Graphics, Training for Mechanical Manufacturing, Design Course for Mechanical Principle, Design Course for Mechanical Design, Design Course for Electrical and Electronic Technology, Practice in Production and Graduation Design.

Career:More than 40% ofgraduateschoose to pursue postgraduate programor go abroad for further study with an increasing proportion year by year.The othergraduates start their career inthe fields ofaerospace, automobile, electronic equipmentas well asscientific research institutes.; In addition, the College has established anindustry-university-research joint training base with Beijing Jingcheng Machinery Electric Holding Co., Ltd., Beijing Instrument Industry Group, Beijing Automotive Group Co., Ltd. (BAIC), Beijing Hyundai Auto, China Academy of Space and other employers, offeringspecialjob opportunities to undergraduates.

5.Measuring and Control Technology and Instruments

Objective:

To meet the national and regional (especially Beijing-Tianjin-Hebei region) talents needs of precision metrology, aerospace, high-end equipment manufacturing and other related industries, Measurement and Control Technology in BJUT aims tocultivate high-quality interdisciplinary engineering technology talents with professional knowledge and engineering practice abilities in optical, mechanical, electrical and control fields, who can be engaged in design and manufacturing technology maintenance and operation management in the fields of precision measurement, nondestructive testing, intelligent sensing and instrumentation with innovative consciousness and international vision.

The graduates are supposed to have a high sense of the patriotism, social responsibilities, humanistic literacy, professional ethics, as well as the abilities of communication, lifelong learning and teamwork. They are capable of solving complex engineering problems with consideration of social environment factors and related policies and regulations. After about 5 years of work or further study, they can actively adapt to the development trend of the industry and play a backbone member in the work team.

Curriculum:

Core courses:

Mechanical courses: Engineering Graphics, Engineering Mechanics, Precision Machine Design, Fundamental of Mechanical Manufacture, Mechanical Precision Design Basis.

Electricity courses: Fundamentals of Electric Circuits, Digital and Analog Circuitry, Microcomputer Principle and Interface Technology, Measurement and Control Circuit.

Optics courses: Geometrical Optics, Physical Optics, Photoelectric Technology.

Measurement and Control courses: Error Theory and Data Analysis, Sensors and Measurement Technology, Signal and Information Processing, Control Engineering Fundamentals.

Major Courses: Instrument Intelligent Technology, Precision Instrument Design, Computer Testing and Control System, Technology of Precision Measurement, Computer Vision and Image Processing, Intelligent Sensing Materials and Structures, Piezoelectric Materials and Acoustic Wave Electronic Devices, Micromagnetic Sensing and Detection Technology, Nondestructive Testing, Servo Drive and Control.

Career:Graduates are largely employed in sensor, measurement, control, instrument design, application, scientific and technological development, technical support, production and management. More than 30% of graduates continue to study forthegraduate programin Chinaor abroad.Otherswill be offered withspecialjob opportunities by Beijing Aerospace Measurement and Control Technology Co., Ltd, China Daheng (Group) Co., Ltd, Beijing Pansino Measurement and Control Technology Co., Ltd,andBeijing Aerospace Times Optical-Electronic Technology Co., Ltd.

6.Intelligent Manufacturing Engineering

Objective:To meet the intelligent manufacturing and sustainable development needs, the students are provided with the professional training to adapt to the future of science and technology progress, to pursue beauty, intelligence and physique full scale development, to combine the knowledge, ability and personality of the trinity, to master mechanical, material, electrical, industrial, basic theory and knowledge, such as the Internet, a solid engineering, professional knowledge broad, outstanding practice ability, obtain good engineering training, to be able to do under the network forms of collaborative manufacturing innovative product design, intelligent production management and intelligent service operations with lifelong learning ability, international vision, social responsibility, organization and coordination ability, team spirit and professional ethics of creative talents.

Major features of professional training include:

(1) The curriculum system of Intelligent Manufacturing Engineering is based on mechanics and electricity, with machinery and materials as the starting point, network and intelligence as the link, intelligent manufacturing as the core, and design, operation and maintenance as the focus to cultivate interdisciplinary talents with international vision and interdisciplinary crossing.

(2) According to the composition of intelligent manufacturing system, the basic curriculum system is divided into four dimensions: manufacturing process, manufacturing equipment, manufacturing products and manufacturing performance.

(3) Attach importance to project practice innovation, take innovation practice as the main line through the university learning process, and comprehensively train students' consciousness and ability of "intelligent design" and "distributed collaborative manufacturing".

(4) Graduates are specialized in system architecture, planning, innovative product design, intelligent production management and intelligent service operation and maintenance in intelligent manufacturing related fields.

This major is running in the Faculty of Materials and Manufacturing in BJUT. Currently, it has 5 first-level disciplines, and ranks the top 250 universities in the QS world universities rankings by subjects with industry big data application technology national engineering laboratories ,2 state-level scientific research platforms, key laboratory of the ministry of education, Beijing municipal key laboratory, engineering research center of Beijing , 12 provincial scientific research platforms, engineering mechanics national experimental teaching demonstration center, and mechanical engineering experimental teaching demonstration center of institutions of higher learning in Beijing.

Theoretical core courses: Model-based Engineering, Integrated Automation, Manufacturing Operations Management, Intelligent Sensing and Control, Engineering Design and Optimization Methods, New technologies for Intelligent Manufacturing, Intelligent Production Systems and CPS Modeling, etc.

Practical core courses: Integrated Practice of Intelligent Manufacturing, Practice ofAdvanced Manufacturing Technology based on MBD, Mechanical Engineering Training, Intelligent Sensing and Control, Design and Simulation of Intelligent Production System, etc.

7.Cultivation Bases of Industry-University-Research

Beijing Iingcheng Electromechanical Holding Co., LTD., Beijing Baic Group, Beijing Hyundai Motor Co., LTD., Futian Automobile Design Institute, CRRC Group, Beijing Tobacco Logistics Center, Machinery Science Research Institute, Beijing Satellite Factory, etc.

Career:Graduates start their career in the fields of intelligent manufacturing system architecture, planning, innovative product design, intelligent production management and intelligent service operations for expertise. 60% of them have the abilities of system planning, the whole life cycle of new product development, operations management in international business in Beijing headquarters and national key enterprise30% pursue a further study for master degree or study abroad, and 10% have the capacity to start their own business.

8.Welding Technology and Engineering

The Welding Technology and Engineering program is based on the University's research strengths in materials science, and caters for the needs of strategic emerging industries in the Beijing-Tianjin-Hebei region and the country as a whole. Materials Science in BJUT is a national key discipline, and after nearly 60 years of development, the second-level discipline of Materials Processing Engineering has developed a number of distinctive and advanced research areas, including welding materials, intelligent welding equipment, advanced laser manufacturing techniques and additive manufacturing.