Basic educational system: four years | Enrollment target: | Education: technical secondary school | Professional code: 080404

Training objectives

Training objectives

Training objectives: According to the talent training mode of "emphasizing foundation, broad caliber, compound and high quality", this major cultivates all-round development of morality, intelligence and physique, understands the development trend of modern metallurgy and materials-related disciplines, adapts to the requirements of socio-economic and scientific and technological development, and grasps the relevant basic theories of modern metallurgical engineering. With professional knowledge and basic skills in metallurgical physical chemistry, metallurgical transmission and reaction engineering, metallurgical process control, iron and steel metallurgy, nonferrous metallurgy, etc., able to apply modern information technology and management technology to engage in production, management, operation, design and scientific research in metallurgical engineering and related fields, with innovative consciousness and entrepreneurial spirit.

Training requirements: Students in this major mainly study the basic theory, production technology and equipment, experimental research, design methods, basic theory and knowledge of environmental protection and comprehensive utilization of resources of ferrous metals such as iron and steel, ferroalloy and heavy, light, rare and precious metals, receive scientific research and engineering skills training in the field of metal metallurgy, and have the basic ability to develop new technologies, processes, new materials and their industrial design, production organization and management.

Graduates should have the following knowledge and abilities:

1. Master the basic knowledge of advanced mathematics, physics and chemistry, master the basic knowledge and skills of drawing, machinery, electrical and electronic technology and computer application required by this major, have a good foundation in humanities and social sciences and economic management science, master a foreign language skillfully, and have the comprehensive application ability of foreign languages;

2. Master the basic theory and production process knowledge of ferrous and non-ferrous metal metallurgy, and have the basic knowledge of ferrous and non-ferrous metal metallurgy production organization, technical economy, scientific management and environmental safety and the preliminary ability of industrial design;

3. Have the ability and basic skills to analyze and solve practical problems in the production of this major and to develop new technologies, new equipment and new materials to introduce undergraduate majors in colleges and universities.

4. Understand the development trends of science and technology in this major and related disciplines, and be familiar with the principles, policies and regulations for the sustainable development of metallurgical industry, as well as the cutting-edge technologies for the scientific and technological development of metallurgical enterprises;

5. Have certain scientific research, practical work and critical thinking ability.

Main subjects: metallurgical engineering technology, material science and chemical engineering.

Core knowledge fields: physical chemistry, material science, transmission principle, metallography and heat treatment, iron and steel metallurgy, nonferrous metallurgy.

Example of core courses:

Examples 1: metallurgical transmission principle and reaction engineering ①(80 hours), refractory and fuel combustion (40 hours), metallurgical experimental research method (40 hours), metallurgy (2) (80 hours), metallurgy (1)(80 hours), metal solidification (40 hours), and so on. Fundamentals and Applications of Metallurgical Process Control *(40 hours), Principles of Chemical Engineering (48 hours), Fundamentals of Metallurgical Plant Design (32 hours), Physical Chemistry of Metallurgy (80 hours) and Fundamentals of Industrial Ecology (24 hours).

Example 2: Metallurgical electrochemistry (24 hours), metal materials and heat treatment (32 hours), physical chemistry experiment B(32 hours), electronic technology (48 hours), metallurgical principle (56 hours), metallurgical physical chemistry (64 hours), metallurgical engineering experiment technology (24 hours), iron and steel metallurgy I(48 hours) and iron and steel metallurgy II.

Example 3: metallurgical physical chemistry 1(40 hours), metallurgical physical chemistry 2(40 hours), metallurgical transmission principle 1(40 hours), metallurgical transmission principle 2(40 hours), engineering mechanics B(56 hours), mechanical design basis (56 hours), instrument and automatic control A(56 hours). Metallurgical experimental technology 1( 16 class hours), iron-making raw material preparation (24 class hours), iron-making principle (48 class hours), steel-making principle (48 class hours), iron-making plant engineering design (40 class hours), nonferrous metallurgy principle (40 class hours) and nonferrous metallurgy (48 class hours).

Main practical teaching links: metalworking practice, professional understanding practice, production practice, graduation practice, metallurgical engineering experiment, metallurgical engineering course design, graduation design (thesis) and so on.

Main professional experiments: metallurgical physical chemistry experiment, transmission principle experiment, metallurgy and heat treatment experiment, comprehensive experiment of raw fuel metallurgical performance, analysis and testing technology experiment, comprehensive experiment of iron and steel metallurgy, comprehensive experiment of nonferrous metal metallurgy, etc.

Length of study: four years.

Degree awarded: Bachelor of Engineering.

Professional ability requirements

Professional ability requirements

The main contents of professional teaching

The main contents of professional teaching

Engineering Mechanics, Introduction to Metallurgy, Metallurgical Principles, Transmission Principles, Metallurgy, Metal Materials and Heat Treatment, Properties of Metal Materials, Metallurgy and Physical Chemistry of Materials, Iron and Steel Metallurgy, Nonferrous Metals Metallurgy, Material Analysis Methods, Metal Materials Forming and Processing are in the following professional directions.

Major (skill) direction

Major (skill) direction

Metallurgical enterprises: product design, product production, technology development, metallurgical engineering, material development, production organization and management, product sales.

Example of vocational qualification certificate

Example of vocational qualification certificate

Examples of continuing learning majors

Employment direction

Employment direction

Employment direction of metallurgical engineering specialty

Graduates majoring in metallurgical engineering are suitable to engage in product design, production, technology development, production organization and management, product sales and scientific research in large and medium-sized metallurgical enterprises, metallurgical related equipment manufacturing, metallurgical raw and auxiliary materials production and sales and other industries. Posts: sales engineer, sales engineer, sales manager, sales manager, mechanical engineer, automatic control engineer, metallurgical engineer, salesman, process engineer, project sales engineer, electrical engineer, professional consulting technician, gas detector sales engineer, etc.

Corresponding occupation (post)

Corresponding occupation (post)

Other information:

Metallurgical engineering majors train senior engineering and technical personnel with knowledge of metallurgical physical chemistry, steel metallurgy and nonferrous metallurgy, who can engage in production, design, scientific research and management in the field of metallurgical engineering; Mainly set up metallurgical physical chemistry, materials science foundation, metallurgical transmission principle, steel metallurgy, metallurgical quality analysis and other courses; Graduates can engage in basic research, technology development, engineering design, technical transformation and other aspects in the fields of iron and steel metallurgy and non-ferrous metallurgy; In the fields of materials, chemical industry, environment and mechanical engineering. , I can engage in technical development and technical transformation related to metallurgical disciplines; Enterprises engaged in iron and steel metallurgy and nonferrous metallurgy can engage in production organization, technical economy, quality management, environmental safety, sales and other aspects; In metallurgical research and design institute, you can engage in scientific research and development, factory design, technical transformation and other aspects of work. Be able to engage in metallurgical experiment teaching in colleges and universities; You can engage in metallurgical teaching in higher vocational and technical schools.