What are the best majors in materials specialty and which direction is good?

Materials belong to engineering, including metal materials engineering, polymer materials and engineering, inorganic non-metal materials engineering, material forming and control engineering. The direction of semiconductors, new energy and photoelectric materials is better.

Undergraduate material specialty

Functional materials, nano materials and technology, new energy materials and devices, material physics, material chemistry, materials, metallurgical engineering, metal materials engineering, inorganic non-metallic materials engineering, polymer materials and engineering, materials science and engineering, composite materials and engineering, welding technology and engineering, gems and materials technology, powder materials science and engineering.

Employment direction of materials

After graduation, I can engage in the trade, appraisal, processing, quality supervision and inspection, production management, scientific and technological development of jewelry and materials technology in the departments of commerce, trade, commodity inspection, tourism and banking.

After graduating from metal material engineering, you can engage in scientific research, technology development, process and equipment design, production and management in the fields of metallurgy, material structure research and analysis, preparation of metal materials and composite materials, and metal material molding.

After graduating from metallurgical engineering, you can engage in metallurgical technology and its theory, smelting process and control, smelting process and equipment design, production process improvement, smelting product performance improvement and testing, metallurgical enterprise management and so on.

After graduation, the major of welding technology and engineering can be oriented to industries such as machinery manufacturing and shipbuilding, and large and medium-sized enterprises, engaged in automatic welding and semi-automatic welding technology operation and construction, process planning, product quality inspection, on-site production management and technical management.

After graduating from polymer materials and engineering, you can engage in scientific research and teaching, technical development, process and equipment design, technical transformation and management in the fields of preparation, processing and molding of various materials, material structure and properties.

After graduating from material science and engineering, you can engage in scientific research and teaching, technology development, process and equipment design, technical transformation and management in the fields of preparation, processing and molding, material structure and performance of various materials.

After graduating from polymer material processing engineering, I can engage in research and development, product design and management in aerospace, automobile manufacturing, electronic information, energy, computer manufacturing, communication equipment, biomedical equipment, building materials, household appliances enterprises and institutions, scientific research institutes and universities.

After graduation, I can engage in scientific research, technology development, process and equipment design, production and management in the fields of structural research and analysis of inorganic nonmetallic materials, material preparation, material molding and processing.

After graduation, you can engage in the design, research and development, analysis, production, testing, marketing, management and other related enterprises and companies related to composite materials.

After graduation, you can engage in scientific research, technology development, process design, production and management in the fields of preparation, modification, processing and application of biomaterials, and work in scientific research institutes, design institutes, universities and enterprises.

Rare earth engineering trains senior professionals engaged in rare earth materials, rare earth metallurgy, engineering design and scientific and technological innovation. After graduation, you can engage in rare earth materials, rare earth metallurgy, engineering design, scientific and technological innovation and so on.

After graduating from powder materials science and engineering, I can engage in the research, production, development, teaching and management of powder materials processing and preparation, powder metallurgy, cemented carbide and superhard materials, ceramic materials, new electrical and electronic materials, nano-materials and composite materials.

Science and technology of renewable resources train senior technical engineers engaged in production and management in the field of renewable resources and senior talents engaged in the development, research and design of solid waste resources. After graduation, they can engage in advanced technical engineering of production and management.