School of Chemistry and Chemical Engineering

Four-year bachelor's degree in polymer materials and engineering

Program characteristics: This program is a pilot program for the Excellent Engineer Education Training Programs by the Ministry of Education, and it is also a pilot program for the Shanghai applied undergraduate program. This program is under review of National Engineering Education Professional Accreditation. This program is characterized by rubber engineering, and the graduates will master the basic theory and knowledge of chemistry, engineering, and natural science, and take advanced manufacturing industry and new materials as the professional background. Simultaneously, the graduates will master the composition, structure, and performance of polymer (especially rubber and plastics), formulation design, material testing, pay attention to new products, new technologies, new technology development, application of new processes, and the cultivation of engineering practice ability. This program aims to cultivate excellent talents who are good at both theory and practice to meet the basic requirements of engineering education in the field of higher engineering.

Main courses: inorganic chemistry, organic chemistry, analytical chemistry, physical chemistry, polymer chemistry, polymer physics, materials science and engineering foundation, polymer materials research methods, material processing principles and engineering, composite science, rubber process principles, synthetic adhesives, polymer synthesis engineering, material surface engineering, and other theoretical and practical courses.

Employment: Graduates of this major work in various fields related to polymer materials (especially rubber-related enterprises), research institutes, design institutes, in polymer synthesis and processing, product development and engineering design, production and management, inspection, and quality supervision.

Four-year bachelor's degree in chemical engineering and technology

Program characteristics: This major is a first-class undergraduate major in Shanghai. It has been passed the international equivalent of engineering education professional accreditation, and engineering degree international mutual recognition. The purpose of this demand-oriented program is to meet social development. This program involves fine chemicals, focuses on the application of catalytic technology. Its goal is to train excellent engineers, training them to master chemistry, chemicals, and other disciplines of basic theory and professional knowledge. The graduates work in modern enterprises to simulate the process optimization, knowledge innovation, the new process of development and design, and new product development. As a result, the graduates will be experts in petrochemical, fine chemicals, new materials, pharmaceutical, environment, energy, and other fields to be engaged in engineering design, technology development, and production management. Therefore, the graduates will be excellent talents for chemical trade and other work.

Main courses: inorganic chemistry, analytical chemistry, organic chemistry, physical chemistry, drawing foundation, electrical and electronic technology, chemical principles, chemical equipment foundation, chemical safety and environmental protection, chemical instrumentation automation, chemical technology economics, chemical thermodynamics, chemical reaction engineering, chemical design, industrial catalysis, chemical separation engineering, chemical process analysis and synthesis, fine chemical process, daily chemical technology, energy chemical industry introduction, nanoscience introduction, chemical technology, fine chemical industry, fine chemical industry, fine chemical process and equipment, application catalysis, computer application foundation, VB program design, CAD course design, chemical computer application, and chemical process computer simulation experiment.

Employment: Graduates of this major have a wide range of employment, engaging in petrochemical, fine chemical and related enterprises in the design, development, production, operation, management and trade work, in chemical and related products research institutes, design institutes and other units and departments engaged in research and engineering design work, in chemical products inspection and quality supervision units or departments engaged in product inspection, standardization, and other technical and management work.

Four-year bachelor's degree in pharmaceutical engineering

Program characteristics: This major has passed the international substantive equivalent of engineering education professional accreditation, and attained international mutual recognition in engineering degree. This program aims to cultivate students’ engineering application ability, basic knowledge, professional knowledge, drug manufacturing and process development and other research methods and means of chemistry, pharmacy, engineering, and related disciplines. The program uses theoretical knowledge and modern tools to analyze and solve complex engineering problems. The graduates work in pharmaceutical engineering and related fields such as technology development, process and engineering design, production management, and service.

Main courses: inorganic chemistry, analytical chemistry, organic chemistry, physical chemistry, biochemistry, chemical principles, instrument analysis, drug synthesis reaction, pharmaceutical chemistry, pharmacology, pharmacology, pharmaceutical technology, drug analysis, drug production quality management engineering, pharmaceutical separation engineering, pharmaceutical equipment and workshop design, pharmaceutical process safety and environmental protection, natural drug chemistry, new drug research, and development courses.

Employment: Graduates of this major work in pharmaceutical enterprises, pharmaceutical research and design units, drug management and supervision and inspection departments, health care products, food, pesticides, daily chemical and other enterprises and institutions, in technology development, manufacturing processes, engineering design, production management, and service work.

Four-year bachelor's degree in environmental engineering

Program characteristics: This major has passed the international substantive equivalent of engineering education professional accreditation, and attained international mutual recognition in engineering degree. The graduates will obtain the engineering application ability and receive training in good ideological quality, humanistic literacy, and professional ethics. The graduates will have solid environmental engineering professional knowledge, engineering practice ability, pollution control,control engineering technology development and design, environmental management, environmental monitoring, and evaluation of comprehensive professional skills. With innovative awareness, team spirit, international vision, and management capabilities, the graduates will be engineering talents and engage in environmental pollution prevention and control, technical services, environmental engineering, and other related industries.

Main courses: inorganic chemistry, analytical chemistry, organic chemistry, physical chemistry, chemical principles, environmental engineering microorganisms, environmental monitoring, water pollution control engineering, air pollution control engineering, solid waste treatment and disposal, physical pollution control, environmental impact assessment, environmental planning and management, environmental engineering simulation and control, environmental engineering project management, and budget.

Employment: Graduates of this major work in environmental protection departments, design institutes, chemical and pharmaceutical enterprises, and related enterprises and institutions at all levels in the fields of environmental pollution prevention and control, technical services, environmental monitoring, environmental protection industry technology management, and sustainable development planning and management.

Bachelor of Science, Four-Year Bachelor of Science in Pharmaceutical Chemistry

Program Features: Based on chemistry, pharmacy, and biology, this program is characterized by the design and synthesis of small molecule drugs, and cultivates graduates with basic knowledge, basic theory, and experimental skills of pharmacy and chemistry. The graduates will be engineering talents in good innovative spirit and entrepreneurial consciousness.

Main courses: Organic Chemistry, Physical Chemistry, Analytical Chemistry, Instrument Analysis, Spectrum Analysis, Biochemistry, Biopharmaceutical Technology, Microbiology, Pharmacology, Physiology, Pharmacology, Pharmacobolic Dynamics, Drug Analysis, Pharmaceutical Chemistry, Pharmacology, Computer-Aided Drug Design, Pharmacy Management, and GMP Regulation.

Employment: Graduates of this major work in medicine, biochemical products, nutritional and health care products, food, agrochemical, daily chemical and other enterprises and institutions, as well as pharmaceutical research and development, drug production, circulation and use, pharmaceutical management, pharmaceutical food testing, technology development and transformation, project management, and other related work.

Four-year bachelor's degree in coatings engineering

Program characteristics: This program was newly established in 2018 by the Ministry of Education and it was the first domestic coating engineering undergraduate talent training program. The graduates will be equipped with a professional background in advanced functional materials. Being talents in coating engineering, the graduates serve in the coating industry and enterprise, master chemistry, engineering and natural science and other aspects of the basic theory and knowledge, master coatings, especially new coating design, synthesis, alteration, coating, and other aspects of professional knowledge structure. At the same time, the graduates will pay attention to new products, new technologies, and new technology theory and practical ability. Using the 3+1 training model (the industry and the enterprise joint training model), the students in this program will spend three years in school learning basic theoretical knowledge in the field of chemistry and materials. They then spend one more year in the coating enterprise engineering practice. This program aims to cultivate engineering application talents who meet the basic requirements of engineering education.

Main courses: inorganic chemistry, organic chemistry, analytical chemistry, physical chemistry, polymer chemistry, polymer physics, materials science and engineering foundation, polymer materials research methods, polymer processing fluidology, coating technology, coating resin synthesis, coating solvents and additives, coating production equipment, coating manufacturing and application, coating pigments and fillers, coating and coating safety and environmental protection, coating process and equipment, coating and raw material quality evaluation, and other theoretical courses and practical courses.

Employment: Graduates of this major work in the coating industry-related enterprises, research institutes, design institutes and institutions, engage in resin synthesis, coating formulation design, coating product development, formulation design, process design, production and management, inspection and quality supervision, and also in the field of polymer materials related work.


School of Mechanical and Automotive Engineering

Four-year bachelor's degree in mechanical engineering

Program characteristics: This program was verified as a state-level first-class undergraduate program, and it is also a pilot program for an Excellent Engineer Education Training Program supported by the Ministry of Education. With modern mechanical engineering as the professional background, this program strengthens the cross-penetration of mechanical engineering and microelectronics, automation, informatization and management, and combines knowledge transfer, ability training, and quality education closely through the teaching mode of theory and technical practice and the application of new technology in this program. At the same time, this program aims to cultivate students with solid basic knowledge of engineering and mechanical engineering, so that graduates can provide solutions for complex engineering projects. The use of the 3+1 school-enterprise joint talent training model, 3 years of study in school, a cumulative 1 year in the enterprise engineering practice, and graduation design, pays attention to the coordinated development of students' knowledge, ability, and quality. This program also cultivates applied high-tech engineering personnel who work in modern mechanical engineering and related fields in mechanical design and manufacturing, automated testing and control, scientific and technological development, applied research, operation management, and so on.

Main courses: Engineering Mechanics (I), Engineering Mechanics (II), Mechanical Principles, Mechanical Design A, Engineering Fluid Mechanics, Thermal Engineering Foundation, Electrical Technology (including Experiments), Electronic Technology (including Experiments), Materials Science Foundation B, Manufacturing Technology Foundation A, Interchangeability and Technical Measurement A, Computing Methods, Microcomputer Principles, Interface Technology, The theoretical basis of control, distributed control system, mechanical manufacturing process, hydraulic transmission and pneumatic technology, mechatronic system design, mechanical and electrical transmission control, engineering project management and decision-making, mechanical CAD/CAM technology, CNC technology, modern processing technology, sensing and testing technology, computer control technology, intelligent control system, and other theoretical courses and practical teaching links.

Employment: Graduates of this major work in modern mechanical engineering and related fields of mechanical design and manufacturing, automated testing and control, scientific and technological development, applied research and operation management, and other aspects of work.

Four-year bachelor's degree in vehicle engineering

Program features: Vehicle engineering belongs to the Department of Automotive Engineering, which was established in 1985, and it is the first automotive engineering department established in Shanghai. In 1987, it was approved by the State Education Commission and was set up as a four-year automotive and tractor undergraduate program. In 2008, the program changed its name to Vehicle Engineering and began its enrollment. In 2010, it became the first pilot major for the Excellent Engineer Education Training Program supported by the Ministry of Education. This program is also listed among Shanghai Excellent Undergraduate Programs and Shanghai Education Highlands. With two state-level engineering practice education centers, the vehicle engineering teaching team won the title of Shanghai Teaching Team, and in 2018 the major was selected as the first-class undergraduate construction leadership plan of Shanghai Higher Education. This program has won three awards for teaching achievements at or above the provincial and ministerial levels. According to industry development planning and local economic development needs, and based on the Shanghai automotive industry, this program relies on Shanghai vehicle and parts manufacturing enterprises, and adheres to the combination of theory and practice. At the same time, this program keeps the balance between design and manufacturing and makes use of a joint training model so that it builds up branches such as automotive vehicle and parts design, production technology, product testing and quality control, and other training direction. Through the establishment of an undergraduate tutor system, innovative practice projects, and various types of automotive design competitions and other engineering design practice links, this program stimulates students' interest in learning and innovation ability.

Training objectives: To meet the needs of national and local economic construction and the development of the automotive industry, the program has a solid natural science foundation and vehicle engineering field expertise, team spirit, innovation awareness, and international vision. With the rapid development of modern automobile manufacturing industry professional literacy, the graduates engage in vehicle and parts engineering-related fields of design, manufacturing, research and development, testing, quality control, and other work. The program also aims to cultivate graduates who have moral and intellectual well-rounded development, qualified builders, and reliable successors for the socialist cause. The graduates will have the following capabilities:

(1) Effectively apply scientific principles and vehicle engineering expertise to propose, analyze, and solve complex engineering problems in our field.

(2) Track cutting-edge technology in vehicle engineering and related fields, be able to play a leadership role in the team, and effectively cooperate and communicate.

(3) To comply with professional norms and consider the safety and sustainable development of the environment in vehicle engineering from a broad system perspective such as law, culture, society, ecology, and economy.

(4) A good team spirit and international vision, communicate effectively with the work team, industry peers, and the public, can learn independently and adapt to the development of social economy and industry and become able to serve the construction and development of vehicle engineering field of advanced engineering applied talents.

Main courses:

(1) Core courses: Engineering Mechanics (I), Engineering Mechanics (II), Mechanical Principles, Mechanical Design A, Electrical Technology, Electronics Technology, Computer Application Foundation, Engineering Materials, Manufacturing Technology Foundation A, Automotive Engine Structure and Principles, Automotive Chassis Construction, Automotive Theory, Automotive Manufacturing Process, Automotive Design.

(2) The curriculum system includes (1) single variable calculus, multi variable-calculus, probability theory and statistics, linearalgebra, calculation methods, dynamics, fluctuations and optics, university chemistry, etc. (2) A series of courses in humanities and social sciences, such as college English, An introduction to modern Chinese history, ideological and moral cultivation and legal basis, and the basic principles of Marxism. (3) Engineering Mechanics (I), Engineering Mechanics (II), Manufacturing Technology Foundation A, Mechanical Principles, Mechanical Design A, Electrical Technology (including Experiments), Electronic Technology (including Experiments), Materials Science Foundation, Control Theory Foundation, Thermodynamics Foundation, Fluid Mechanics Foundation, etc. (4) Automotive Engineering Series Course Automotive Engine Structure and Principles, Automotive Chassis Construction, Automotive Theory, Automotive Design, Engineering Thermodynamics, Automotive Manufacturing Process, Automotive Engineering Test Foundation, Automotive Engine Electronic Control Technology, Automotive Electrical Appliances, Automotive Reliability Design, Special Automotive Design, Automotive Modeling, Automotive Body Design, Automotive Engineering Test Foundation, Automotive Body Manufacturing Process, Automotive CAE Application Technology, etc. (5) Computer series course computer application foundation, C language programming, UG CAD, UG CAM and so on.

Employment: Graduates work in the fields such as auto and parts production, manufacturing, research and development, and other enterprises and institutions either in the state or the local level companies. The graduates are engaged in the development and design of automobiles and their components, testing, manufacturing, process design, quality management, and other aspects of the work.

Graduation requirements:

(1) Engineering knowledge: the ability to use mathematics, natural science, engineering foundation, and professional knowledge to solve complex engineering problems in vehicle engineering.

(2) Problem analysis: to apply the basic principles of mathematics, natural science and engineering science, identify, express, and analyze complex engineering problems in vehicle engineering through literature research, to obtain effective conclusions.

(3) Design/development solutions: the ability to design solutions to complex engineering problems in vehicle engineering, the design of systems and components to meet the needs of automotive products, manufacturing processes, testing processes, and the ability to reflect a sense of innovation in the design process, taking into account social, health, safety, legal, cultural and environmental factors.

(4) Research: based on scientific principles, the graduates can use scientific methods to study complex engineering problems in vehicle engineering, including design experiments, analysis, and interpretation of data. At the same time, the graduates obtain reasonable and effective conclusions through the synthesis of information.

(5) Use of modern tools: the ability to develop, select and use appropriate technologies, resources, modern engineering tools, and information technology tools for complex engineering problems in vehicle engineering, including prediction and simulation of the above-mentioned engineering problems, and understand their limitations.

(6) Engineering and society: be able to conduct reasonable analysis based on engineering-related background knowledge, evaluate the impact of complex engineering solutions in vehicle engineering on society, health, safety, law and culture, and understand the responsibilities.

(7) Environment and sustainable development: be able to understand and evaluate the impact of professional engineering practice on complex engineering problems in vehicle engineering on environmental and socially sustainable development.

(8) Professional norms: with humanities and social sciences literacy, social responsibility, in the practice of vehicle engineering to understand and abide by engineering ethics and norms, to fulfill their responsibilities.

(9) Individuals and teams: be able to assume the roles of individuals, team members, and leaders in a multidisciplinary team.

(10) Communication: the ability to communicate effectively with industry peers and the general public on complex engineering issues in vehicle engineering, including writing reports and design documents, creating statements, and expressing or responding to instructions. They also will have a certain international perspective, be able to communicate and communicate in a cross-cultural context.

(11) Project management: understand and master engineering management principles, and economic decision-making methods, and can be applied in a multidisciplinary environment.

(12) Lifelong learning: self-learning and lifelong learning awareness, continuous learning, and adaptability to development.

Four-year bachelor's degree in automotive service engineering

Program characteristics: This program is among the key construction and development applied undergraduate programmes in Shanghai. This program trains graduates with noble personal moral character, good professional ethics and humanities training, with excellent scientific literacy, solid natural science and automotive technology-related mechanical, and electrical and management engineering foundation. With good teamwork innovation ability and international vision, the graduates work in the new energy and intelligent network car and other technical services in the field of testing, evaluation, maintenance, operation, and management of high-level engineering applications.

Main courses: Modern Engineering Illustration, University Chemistry, Mechanical Principles, Engineering Materials, Fluid Mechanics Foundation, Thermodynamics Foundation, Computing Methods, Interchangeability and Technical Measurement, Mechanical Design, Electrical Technology, Electronics, Automotive Chassis Construction, Automotive Engine Structure and Principles, Automotive Marketing Practice, Automotive Insurance and Claims, Automotive Theory, automotive testing and diagnostic technology, automotive electronics, electric vehicle structure and principle, automotive logistics engineering overview, automotive consumer psychology, transportation technology economics, logistics cost management, automotive safety and accident engineering, intelligent transportation systems, used car evaluation, database principles, automotive logistics technology equipment, automotive hydraulic transmission and control, and automotive CAD technology.

Employment: Graduates of this major work in new energy and intelligent network car and other technical services in the field of testing, evaluation, maintenance, operation, and management of high-level engineering applications.

Four-year bachelor's degree in mechanical and electronic engineering

Program characteristics: This program takes Made in China 2025 as the professional background, and pays attention to robots as the representative of mechanical and electronic engineering and intelligent technology. It pays attention to the organic integration of information technology and other fields. This program is a collection of machinery, electronics, control, communications, and other multidisciplinary cross-caliber professionals. This program cultivates graduates with qualified personal qualities, professional qualities, professional ethics, strong interpersonal communication, and cooperation skills. At the same time, this program aims to cultivate graduates who have a solid basic theoretical knowledge of natural science, master the robot as the core of machinery, electronics, control, computer and communication, other multidisciplinary expertise and engineering management, and other basic knowledge, with integrated thinking, engineering reasoning, problem solving and management organization ability. The graduates will be excellent engineering talents in robot-oriented mechanical and electronic engineering and serve as representatives of the first-line positions in the field of mechanical and electrical engineering development. Finally, the graduates can conduct applied research and operation management, and other technical applications.

Main courses: Modern engineering drawing, engineering mechanics, mechanical principles, electrical technology, electronic technology, manufacturing technology foundation, interchangeability and technical measurement, control theoretical basis, robotics, robotics, microcomputer principles and interface technology, engineering economics and project management, distributed control systems, machine vision and images Processing, robot network and communication technology, detection and sensing technology, mechanical and electrical system design, hydraulic and pneumatic, mechanical and electrical equipment electrical control and PLC technology, robot motion control technology, servo systems, embedded systems, artificial intelligence foundation, robot basic experiments, robot innovation experiments, and robotics professional curriculum design.

Employment: Graduates of this major work in first-line positions in the field of mechanical and electrical engineering represented by robots; they will engage in design and development, applied research and operation management, and other technical work.

Energy and Power Engineering Program

Four-year bachelor's degree

Bachelor of Engineering

Program features: To meet the needs of China's basic national policy of energy conservation and emission reduction for the training of engineering application-oriented personnel and reflecting the purpose of running a modern engineering application-oriented university, this program adheres to the mode of cooperation in the production, research and development of schools, attaches importance to the coordinated development of knowledge, ability and quality, strengthens the cultivation of innovation consciousness and ability, and pays attention to the intersection and penetration of dynamic engineering, engineering thermophysics, civil engineering, mechanical engineering, and other disciplines. This program aims to cultivate personal qualities, professional qualities, professional ethics, strong interpersonal communication, and cooperation skills, obtain solid basic theoretical knowledge of natural science, master the field of energy and power engineering, or building environment control and building energy conservation scientific theory and technology, with integrated thinking, engineering reasoning, problem-solving, and management organization skills. The graduates work in the fields of design, management, research and development, installation and operation management in the fields of energy and power engineering or building environment control and building energy conservation. At the same, the graduates will be familiar with international rules, with a sense of social responsibility, comprehensive ability, a sense of innovation, and dedication to high-level engineering applications. This program includes two branches, one is Energy Engineering and Energy-saving Technology and it focuses on thermal equipment, energy conservation and emission reduction, new energy utilization in the field of research, design, installation, operation, and management capacity training. The other branch is Building Environment Control and Building Energy Conservation and it focuses on building environment control, energy conservation research, design, installation, operation, and management capabilities.  

Main courses: linear mathematics, probability theory and statistical statistics, engineering mechanics, mechanical principles and parts, electrical technology, electronic technology, fluid mechanics, engineering thermodynamics, heat transmission, thermal exchange principles and equipment, fluid distribution network, building environment, cold Heat source equipment and systems, ventilation engineering, air conditioning engineering, building environment testing technology, combustion, power engineering testing technology, turbine principles, boiler principles, thermal power plants, gas application engineering, solar energy utilization technology, heat pump technology, other required or elective courses, and relevant practical training programs. 

Employment: Graduates of this program work in design, management, research and development, installation, operation management, and other technical or management positions in the fields of energy and power engineering, building environment control, and building energy conservation.

Intelligent manufacturing engineering program,

Four-year bachelor's degree,

Bachelor of Engineering

Program features: This program adapts to the national manufacturing power strategy and the development of the intelligent manufacturing industry to the needs of higher engineering application personnel training. It aims to cultivate students with qualified personal quality, good professional quality and ethics, humanities and social sciences literacy and social responsibility, a solid basic theoretical knowledge of natural science, as well as mechanical engineering, electrical control, computer and information management technology, other disciplines cross-discipline expertise, practical ability, and comprehensive quality. After the four-years learning in this program, students will have the cognitive ability, innovation ability, engineering practice ability, and lifelong learning ability, so that students will have the ability of innovation, international vision, team spirit, communication ability, and active learning. They will adapt to the needs of the country and Shanghai's contemporary economic and social development. In doing sp, the graduates will become high-level engineering application talents who adapt to the design and manufacturing, system integration, operation management, intelligent equipment maintenance, and management related to the field of intelligent manufacturing engineering.

Main courses: Modern engineering drawing, engineering mechanics, mechanical principles, mechanical design, electrical technology, electronic technology, manufacturing technology foundation, fluid mechanics and heat transmission, intelligent manufacturing mathematical basis, interchangeability and technical measurement, control theoretical basis, artificial intelligence technology and applications, database technology and applications, embedded systems and Applications, intelligent manufacturing processes, electrical control and PLC applications, CAD/CAM, IoT technology and applications, intelligent manufacturing equipment overview, intelligent manufacturing project management, sensor and intelligent detection technology, intelligent electromechanical drive control, intelligent production systems and CPS modeling and other required or elective courses and related practical teaching links.

Employment: Graduates of this program will work in intelligent manufacturing engineering related to the design and manufacture of intelligent equipment systems, system integration, operation management, intelligent equipment maintenance, and management.


School of Materials Engineering

Four-year Bachelor of Engineering in Welding Technology and Engineering

Program Introduction: Welding Technology and Engineering is a multi-disciplinary science and technology, involving machinery, materials, electronics, control, mechanics, and other disciplines. It is an indispensable key technology in the modern manufacturing industry, ranging from aircraft carriers, rockets to microelectronic chips. Founded in 1978, this program includes a master's degree in material processing engineering, focusing on cultivating students' scientific research, engineering practice, and innovation ability. This program is designed to meet the needs of high-end manufacturing and to train advanced engineering talents who master welding technology and engineering theories and technologies. Mentorship is implemented, and senior students are trained in more systematic scientific research and engineering practice. Students are supported by teaching and research platforms such as Advanced Welding Professional Laboratory, Shanghai Materials Science and Engineering Class III peak disciplines, and Shanghai Laser Advanced Manufacturing Technology Collaborative Innovation Center. Under the tutor's guidance, candidates can conduct scientific research and exploration practices in the direction of arc welding, brazing, laser welding, electron beam welding, robotic intelligent welding, metal 3D printing manufacturing, material surface modification, ultra-fast laser processing, welding structural reliability, and non-destructive detection.

Core Curriculum: Modern Engineering Graphics, Engineering Mechanics, Mechanical Principles, Mechanical Design, Materials Science Basics, Manufacturing technology Basics, Welding Metallurgy, Welding Technology, Material Welding, Arc Welding, Welding Structure, Welding Quality Detection and Evaluation, Laser Welding Technology, Laser Cladding Basics, Metal 3D Printing, Ultra-fast Laser Processing, Welding Comprehensive Experiment, and other theoretical courses and practical teaching sessions.

Employment Outlook: Graduates of this program work in the aerospace, automotive, marine, high-speed railway, new energy equipment, mechanical automation, electronics and electrical appliances, chemical industry, electric power, and other industries. They are mainly engaged in the field of welding technology and engineering research and development, design, production, maintenance, management, consulting, and other fields.

Four-year Bachelor of Engineering in Materials Science and Engineering

Program Introductionthis program, which includes a master's degree in material science and engineering, was selected into the Class III Peak Discipline Construction Plan of Shanghai Municipal Education Commission. During more than 40 years of development, it has formed a talent training system with advanced manufacturing and new materials as the professional background, featuring metal materials and surface engineering, and focusing on cross-pollination with chemistry, machinery, microelectronics, information, and other fields. The goal of this program is to train advanced engineering and technical talents with a solid foundation of scientific knowledge, good humanistic quality, strong engineering ability, a sense of innovation, and can engage in design, production, research and development, quality inspection, and management related to engineering materials.

Core Curriculum: Graphics Basics, Mechanical Principles and Components, Manufacturing Technology Basics and Internship, Electrical and Electronic Technology, Engineering Mechanics, Materials Science Basics I, Materials Science Basics II, Materials Engineering Basics, Materials Performance and Testing, Materials Modern Analysis Technology, New Technology of Materials Preparation, Engineering Materials, Material Corrosion & Protection, Material Inspection, Powder Metallurgy, Material Forming Technology, Material Failure Analysis, Ceramic Materials &Polymer materials, Composites and Functional Materials, Surface Engineering Basics, Nanomaterials, and other theoretical courses and practical teaching sessions.

Employment Outlook: graduates of this program work in materials, machinery, automobile, electronics, energy, and other industries. They are hired in various enterprises, management institutions, scientific research, engineering material design, application research, product quality control and analysis, development and operation, and organization and management.

Four-year Bachelor of Engineering in Electronic Packaging Technology

Program Introduction: this program is designed to meet the needs of the national strategic deployment plan, belonging to the field of China Chips in the Sino-US trade dispute. Based on advanced microelectronics manufacturing, this program aims to cultivate high-level engineering talents who systematically master the theoretical foundation of interdisciplinary disciplines such as electronic packaging, microelectronics manufacturing, material science, electronic engineering for chip manufacturing, packaging and testing, and large-scale and highly reliable production of electronic devices.

Core Curriculum: Circuits, Analog Electronics, Digital Electronics, Semiconductor Physics Instructions, Materials Science Basics, Microelectronics Packaging, Electronic Packaging Materials, Semiconductor Devices Physics, Semiconductor Manufacturing Technology, Microelectronics Reliability, MEMS and Microsystems Packaging Basics, Optoelectronic Materials & Devices, Materials Analysis Methods, and other theoretical courses and practical teaching sessions.

Employment Outlook: graduates of this program find employment in electronic packaging, microelectronics manufacturing, materials science and engineering, and other related industries (such as communication equipment, computers, network equipment, military electronic equipment, video equipment, and other fields). They are engaged in research and development, manufacturing, quality inspection, production and operation management, etc. Their employment is mainly at large and medium-sized electronic manufacturing enterprises in East China coastal areas.

Four-year Bachelor of Engineering in Materials Forming and Control Engineering

Program Introduction: this program is a cross-disciplinary study of mechanical engineering and material science and engineering, which studies the influence of process factors and microstructure on the macroscopic properties of materials and products in the process of material forming, and solves the theories and methods related to material forming process and equipment. It is the core major in the field of manufacturing, and the industries involved are the pillar industries of national economic development. It is an engineering program with molding technology as the means, materials as the processing object, process control as the quality assurance measure, and product manufacturing as the purpose. It has the same theoretical basis as materials, machinery, control, and other related majors. This program aims to train senior engineering and management talents who are engaged in scientific research, application development, process and equipment design, production and operation management in the field of machinery manufacturing, intelligent equipment, advanced processing, and molding.

Core Curriculum: Modern Engineering Graphics, Engineering Mechanics, Mechanical Principles, Mechanical Design, Electrical Technology, Electronic Technology, Materials Science Basics, Materials Forming Principles, Materials Forming Equipment and Control, Physical Field in Material Processing, Metallurgical Transmission Principle of Materials Processing, Special Plastic Molding Process, 3D Printing, and other theoretical courses and practical teaching sessions.

Employment Outlook: graduates of this program find employment in material preparation enterprises, machinery manufacturing, transportation industry, material processing industry, and other fields. They can engage in production process control, technology development, scientific research, business management, trade marketing, and other fields. Graduates of this program have a similar career path to those of mechanical majors.


School of Urban Railway Transportation

Four-year Bachelor of Engineering in Vehicle Engineering (School of Urban Railway Transportation)

Program Introductionthis program is among the first batch of pilot majors of the Excellent Engineer Education and Training Program of the Ministry of Education, and the major of Shanghai Education Highland Construction. It is under accreditation review by ASIIN International. The program is oriented to the development of modern urban railway transportation, focusing on the intersection and integration of mechanical engineering and power electronics technology, automation control technology, and other multidisciplinary disciplines. It emphasizes the teaching of the basic theory of urban railway transportation and knowledge of vehicle engineering and implements the talent training model of 3+1 university-enterprise collaboration, i.e., three years of study in the university and one year of engineering practice and graduation design in enterprises.The program aims to cultivate high-quality talents who master the organization and management of urban railway transportation companies and the knowledge of modern science and technology applied in production. The students will also be able to adapt to the developmental needs of the urban railway vehicle maintenance industry.

Core Curriculum: Control Theory Basics, Detection and Sensing Technology, Structure and Principle of Urban Railway Vehicle, Electric Traction and Control of Urban Railway Vehicle, Braking Technology of Urban Railway Vehicle, and Train Network Control Technology.

Employment Outlook: this program focuses on the integration of mechanical, electronic, electrical, computer control, communication and signal, transportation organization, and other knowledge. It emphasizes the combination and application of basic theory and the characteristics of modern urban railway vehicle technology. The graduates have strong industry adaptability and competitiveness and are engaged in urban railway transportation vehicle operation and maintenance, fault diagnosis, and repair.

Four-year Bachelor of Engineering in Railway Traffic Signal and Control

Program Introduction: this program is among the first batch of pilot majors of the Excellent Engineer Education and Training Program of the Ministry of Education, and the major of Shanghai Education Highland Construction. Funded by the Shanghai High-Level Characteristic Development Project, it is among the first batch of Youth Practice Workstations of Shanghai and has one National-level Engineering Practice and Education Center. There are two master's degrees in this program: the master's degree in Transportation Engineering and the master's degree in Transportation Engineering. This program is guided by the needs of the industry, takes the relevant theory and technology of railway transportation signal and control as the mainline, integrates the control theory, communication technology, and computer technology, and focuses on the uniqueness and intersectionality of the discipline. In terms of talent cultivation, we implement the training model of the 3+1 industry-university collaboration, i.e., three years of study in the university and one year of engineering practice and graduation design in enterprises. Focusing on operation safety, it highlights the multi-standard test and maintenance, fault diagnosis methods, and technologies of the urban railway transportation signal system. Graduates have the ability of integrated thinking, engineering reasoning, problem-solving, and organization management. It aims to train high-level engineering talents with a solid foundation, broad vision, outstanding engineering literacy, qualified personal qualities, and professional ethics.

Core Curriculum: Circuits, Analog Electronics, Digital Electronic Technology, Automatic Control Theory, Microcomputer Principle and Interface Technology, Computer Network and Communication, Signal and Systems, Digital Signal Processing, Principles of Communication Systems, C Language Program Design, Data Science, Artificial Intelligence Basics, Analytical Railway Traffic Signal Detection Technology, Automatic Control Technology, Computer Interlock Control Technology, and other theoretical courses.

Employment Outlookthis program meets the needs of the national industry and has a relatively perfect cultivation system. Students are trained with solid knowledge and skills, strong innovation, and practical ability.Graduates are employed in the research, design, development, system integration, construction and operation management of signal control and communication in urban railway transportation, high-speed railway, existing railways, industrial and mining enterprises, and other fields.

Four-year Bachelor of Engineering in Railway Engineering

Program Introduction: in this program, there are academic and professional master's degrees in transportation engineering, that rely on the Shanghai Railway Transportation Vibration and noise Control Technology Engineering Center, Shanghai Railway Transportation Operation Safety Inspection and Evaluation Service Collaborative Innovation Center, Railway Transportation testing CMA Lab, and other provincial and ministerial platforms. By giving full play to the international advantages of national experts in the field of railway engineering and through cooperation projects with foreign universities, this program has formed the characteristics of international cooperation with railway transportation infrastructure testing, environmental control technology, and project management as the core. In terms of the content of the program, it is oriented to the demand for talents in the rapid development of urban railway transportation and high-speed railway. Combined with the application and practice of new technologies such as artificial intelligence, big data, and cloud computing in the field of intelligent transportation, this program is centered on the theory and practice of design, and construction and maintenance management of railway transportation infrastructure (track, tunnel, bridge, station, and other engineering). Aiming at enterprises in the transportation engineering industry such as survey, design and construction, intelligent inspection and maintenance, engineering management, and consulting, the goal of this program is to cultivate higher applied engineering complex talents with an international vision.

Core Curriculum: Engineering Mechanics, Structural Mechanics, Earth Mechanics and Foundation, Basic Structural Design Principles, Engineering Surveying, Building Engineering Mapping, Engineering Geology, Building Materials, Track Engineering, Bridge Engineering, Underground Engineering, Railway Line Design, Urban Railway transportation and Engineering Management, Structural Engineering Measurement Technology, Construction Organization Management, Construction Technology, Building Information Models & Engineering Estimations, Artificial Intelligence and Big Data Analytical Technology, Engineering Measurement Internship, Bridge Tunnel Structure Internship, Line Internship, Architectural Structure Course Design, Metro Line and Station Course Design, Bridge Course Design, BIM (Building Information Model) Course Design, Track Detection Internship, and Engineering Structure Test.

Employment Outlookgraduates are mainly employed in work related to intelligent construction and intelligent transportation, face the whole life cycle management of transportation civil construction industry, including the design and construction of transportation infrastructure, project management and consulting, structural protection and repair, railway intelligent operation and maintenance, virtual reality technology application research and development, engineering economy, and other related enterprises and institutions.

Four-year Bachelor of Engineering in Transportation

Program Introduction: this program is a pilot project of the Excellent Engineer Education and Training Program of the Ministry of Education, a program of Shanghai Education Highland Construction. It has passed the accreditation of the engineering education program of the Ministry of Education. The program is closely integrated with the development needs of the networked intelligent operation of railway transportation and adopts the 3+1 joint training mode of industry-university following the training standards of international engineering education certified engineers. It is committed to cultivating multi-functional composite talents with high competitiveness, innovation ability, and international vision in the industry. The program takes modern railway transportation planning, design, and transportation management theories and methods as the core. It focuses on the integration of management, economics, statistics, safety engineering, human factor psychology, and other multidisciplinary disciplines as well as the application of big data, artificial intelligence, virtual simulation, and other advanced technologies. The program highlights the positioning of networked and intelligent railway transportation organization and safety management and focuses on cultivating students' ability to solve complex engineering problems in the field of railway transportation.

Core Curriculum: Operations, Transportation Engineering, Transportation Economics, Urban Railway Transportation Planning, Railway Transportation Management, Transportation Policy and Regulation, Railway Transportation Safety Engineering, Urban Railway TransportationPassenger Organization, Urban Railway TransportationOperational Signal Basics, Urban Railway Transportation Operational Signal Basics, Urban Railway Transportation Safety, Urban Railway Transportation Safety, Urban Railway Transportation Enterprise Management, Train Traction Computing, Transportation Business and other courses; it also sets up practical courses such as course design combined with theory, comprehensive experiments of simulation, and production practice of key operation positions of railway transportation.

Employment Outlook: graduates are mainly employed in advanced technology and management in transportation planning, transportation organization, station design, station management, dispatching and command, and safety management.Their employment can also be extended to public transportation, logistics and freight transportation, and other fields.


School of Electronic and Electrical Engineering

Four-year Bachelor of Engineering in Computer Science and Technology

Program Introduction: this program aims to cultivate talents with a sense of social responsibility, engineering professionalism and ethics, innovative ability, and international perspective, who can comprehensively apply and continuously update theoretical knowledge and professional skills in the field of computer science and technology. They are also able to propose innovative, intelligent, and optimized solutions to complex engineering problems in the field of computer application. They have teamwork and team management skills, and can actively adapt to the rapidly developing needs of the information technology industry as higher engineering application talents in the field of computer application. The program adopts the open school running mode to realize the complementary advantages of universities, enterprises, and social education resources, pays attention to the intersection and integration of control science and engineering and other disciplines, attaches importance to the cultivation of practice and innovation ability, as well as the cultivation of ability of digital media, Internet of things, games and industry.

Core Curriculum: Operating System, Computer Composition and Structure, Database Principle, Computer Network, Discrete Mathematics, Algorithm and Data Structure, Compilation Principle, Object-oriented Programming, Software Engineering, Machine Learning, Artificial Intelligence, Computer Vision, VR Technology, Embedded Real-time Operation System, Mobile Application Development, Web Information Management System, and other theoretical courses and practical teaching sessions.

Employment Outlook: graduates of this program have bright employment prospects and can be employed in the design, development, operation, and maintenance of computer software and hardware systems, mobile Internet application development, and artificial intelligence application development in the fields of information, finance, commerce, manufacturing, telecommunications, and education.

Four-year Bachelor of Engineering in Automation

Program Introduction: this program is an applied undergraduate pilot program in the colleges and universities in Shanghai. The program is based on the technical theory of automation expertise, researching the theory and application of design, analysis, and synthesis of automatic control systems, with the characteristics of combining strong and weak electricity, information technology and automation technology, control devices, system integration, and hardware and software. Focusing on the improvement of students' engineering practice ability and comprehensive quality, the program aims to cultivate higher engineering application talents who master solid automation professional knowledge. Students have a strong engineering practice ability and innovation consciousness. They can analyze and solve engineering practical problems in process control, motion control, intelligent detection, artificial intelligence and robotics, and other related fields. Students can engage in software and hardware design, technology development, system integration, engineering design and implementation, organization, and management of automation systems and devices. As technology advances, the program has been updated with the addition of an artificial intelligence program in 2018, aiming to cultivate more current and market-demanded engineering application-oriented talents.

Core Curriculum: Circuits, Analog Electronics, Digital Electronics, Advanced Language Program Design, Automatic Control Theory, Modern Control Theory, Inspection and Conversion Technology, Motor & Drag Basics, Monolithic Microcomputer Application Technology, Computer Control Technology, Modern Power Electronics, Power Drag Autonomics, Process Control System, Discrete Control System, Artificial Intelligence Basics and other core courses and practical teaching sessions.

Employment Outlook: graduates of this program can find employment in design institutes, research institutes and enterprises to engage in the design, development, and integration and research of automation systems.They can work in enterprises and institutions to engage in commissioning, maintenance, optimization, management, and sales of automation systems.

Four-year Bachelor of Engineering in Electrical Engineering and Automation

Program Introduction: students in this program study the theory, methods, and engineering applications in the field of electrical engineering, including design, operation, control, communications, and intelligent information processing. The curriculum focuses on quality education, emphasizing the combination of electrical and electronic engineering, components and systems, traditional and emerging, and physical and virtual. It aims to cultivate higher engineering application talents who can adapt to the modern electrical engineering field. This program is a 2+2 cooperative program with the University of Florida, and outstanding students can receive a dual bachelor's degree. This program contains three programs: Smart Grid, Electrical Equipment and Building Electricity, and Urban Power Supply. The Smart Grid program is oriented by new energy generation and smart access technology, smart grid dispatch and control technology, smart grid information, and communication technology. It includes the fields of networking, information, intelligent electrical system production and manufacturing, engineering design, system operation, system analysis, technology development, intelligent electrical equipment operation, maintenance management, intelligent power education, and scientific research. The program of Electrical Equipment and Building Electricity is oriented to the background of electrical equipment in the advanced manufacturing industry and the development of digital city, green and intelligent buildings. It contains areas such as manufacturing, installation and commissioning, operation and maintenance, optimization and control of various electrical equipment, building electrical intelligent design, application, management, and research. The Urban Power Supply program is based on the background of modern urban transmission and distribution systems. It contains areas such as the planning and design of the transmission grid, regulation, simulation computing, and technical management.

Core Curriculum: Circuits, Digital Electronics, Analog Electronics, Electromagnetic Fields and Electromagnetic Waves, Mechanics, Microcomputer Application Technology, Automatic Control Theory, Power System Analysis, Variable Power Distribution Engineering, Relay Protection Principle, Power Plant Electrical Engineering, Modern Power Electronics, Power Drag Foundation, Electricity Control Technology, High Voltage Technology, Clean Power Energy, Smart Grid Introduction, and other theoretical courses and practical teaching sessions.

Employment Outlook: graduates of this program are employed in electrical operation and management, design and scientific research and development of power generation, transmission and distribution, power supply system and smart grid, operation control and management of power supply and distribution and electrical equipment in enterprises and institutions, electrical design of modern urban buildings, operation, maintenance and management of intelligent building electrical systems, and electrical construction and supervision.

Four-year Bachelor of Engineering in Broadcast Engineering

Program Introduction: this program is a pilot project of the Excellent Engineer Education and Training Program of the Ministry of Education, a program of Shanghai Education Highland Construction. It is also an applied undergraduate pilot major of the Shanghai Municipal Education Commission. This program is a 3+1 dual bachelor's degree program with Edinburgh Napier University (UK). Students who meet the credit requirements can graduate with a degree certificate from both Shanghai University of Engineering Science and Edinburgh Napier University. The program is based on the key technologies of radio and television. It faces the field of modern network video new media technology, pays attention to the cross integration of video and audio processing, cloud computing services, digital media, artificial intelligence, and other knowledge required by new industries, and strengthens the training of professional skills such as digital TV technology and network video and audio technology with the support of information communication and embedded development.

Core Curriculum: Digital Electronics Technology, Advanced Language Program Design, Microcomputer Principle and Interface Technology, Circuits, Analog Electronics, Communication Principles, Machine Learning, Computer Vision, Informatics and Coding Principles, Video Measurement Technology, Digital Video Processing, Digital Television Technology, Programmable Device Applications, Interactive business support platform, web streaming, virtual reality technology, and other theoretical courses and practical teaching sessions.

Employment Outlook: graduates of this program are employed in scientific research, teaching and engineering work of communication technology, electronic technology in the broadcasting and television industries, information industry, post and telecommunications, transportation, and other institutions.

Four-year Bachelor of Engineering in Data Science and Big Data Technology

Program Introduction: this program follows the idea of building a modern engineering application-oriented university, by following the strategic alliance of industry, university, and research as the platform, relying on Shanghai's modern industry, actively serving the regional economy, and focusing on the cultivation of practical and innovative ability. It is guided by the development demand of the modern information technology industry, adhering to the compound talent training concept of Computer + X, and the mode of theoretical learning + engineering training + new technology application. It attaches importance to the cross-integration with computer science and technology, statistics, intelligent science, and other related majors. It aims to cultivate talents with qualified personal and professional qualities and good scientific literacy. They systematically master the basic theoretical knowledge of big data's analysis, are familiar with the basic process and main tools of big data's analysis, and are advanced engineering applied talents who can engage in big data's scientific research, development, and analysis in educational and scientific research, enterprises, institutions, and administrative departments.

Core Curriculum: Data Science and Analysis, Applied Statistics, Operating System, Database Principles, Data Mining and Analysis, Data Collection and Visual Analysis, Big Data Basic Platform, Cloud Computing and Virtualization Technology, Object-oriented Programming, Algorithm and Data Architecture, Software Engineering, Computer Vision, JAVA Programming, Business Intelligence, R programming, Mobile Application Development, Machine Learning, and Parallel and Distributed Computing.

Employment Outlook: graduates of this program can master the technology and core skills of big data acquisition, processing, analysis, and application. They are advanced engineering applied talents with strong practical and innovative abilities. They have bright employment prospects and can work in the fields of finance, commerce, manufacturing, telecommunications, and education.