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Introduction to Materials Science and Engineering in Hunan University (Details of the major setting of the school's enrollment network) Cultivate a broad range of basic theoretical knowledge, new material research and preparation methods and skills in the fields of metal materials, inorganic non-metallic materials, polymer materials, and materials physics, and be able to engage in scientific research, development, teaching, technological transformation, operation and management of new materials and new processes in the fields of research and development, preparation, processing, material structure and properties of various new materials. Senior research and engineering technical personnel in quality system and quality certification. The basic courses offered are: Fundamentals of Materials Science, Fundamentals of Materials Engineering, Materials Properties, Materials Research Methods, Composite Materials, and Computer Applications in Materials Science and Engineering.
This major is divided into four major directions: metal materials engineering, inorganic non-metallic materials engineering, polymer materials engineering, and materials physics (information, functional materials and devices). The major of metal materials engineering has been added: metallurgy, metal materials science, material processing principles, functional materials, surface engineering theory and technology, mold design and manufacturing, quality system and audit and certification methods.
The major of inorganic non-metallic materials engineering has been added: inorganic chemistry, organic chemistry, physical chemistry, physical chemistry of inorganic materials, crystallography, powder engineering, thermal engineering foundation and equipment, inorganic materials technology, chemical instrument automation, inorganic materials production machinery and equipment, inorganic functional materials, new building materials and other courses. The major direction of polymer materials and engineering was added
Inorganic Chemistry, Physical Chemistry, Organic Chemistry, Polymer Chemistry, Polymer Physics, Polymer Rheology, Polymer Molding Technology, Polymer Material Processing Equipment, Chemical Instrumentation and Automation, Chemical Principles, Functional Polymer Materials, etc. Materials Physics (Information, Functional Materials and Devices) has been added: Introduction to Materials Physics, Molecular Assembly and Materials Design, Fundamentals of Information Materials, Electronic Display and Luminescence, Nanomaterials and Technology, Computer Application in Materials Science, Functional Materials and Devices, Sensing Materials and Devices, Electronic and Information Materials, Nondestructive Testing Technology, Standards and Quality Assurance System, etc.
After graduation, students can be engaged in scientific research and teaching, material design and preparation, product development, quality supervision and testing, performance testing and analysis, organization and management in colleges and universities, scientific research institutes, large enterprises, management institutions, engineering design departments in the fields of electronic information, aerospace, automobile, machinery, metallurgy, petrochemical, light industry, construction, military industry, etc.
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The major of biofunctional materials was established in response to the needs of social development, especially the urgent need for professionals due to the rapid development of interdisciplinary technologies such as biomedical engineering, tissue engineering and drug delivery.
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In the "Catalogue of Undergraduate Majors in Ordinary Colleges and Universities.
Materials science and engineering is a first-level discipline in the materials category of engineering.
The sub-disciplines include materials science, materials physics and chemistry, materials processing engineering and other major professional directions. The materials category also includes many majors, mainly including: metal materials engineering, inorganic non-metallic materials engineering, composite materials and engineering, polymer materials and engineering, etc.
Materials Science and Engineering.
at the university. In the first and second years, students will generally study basic subjects, such as advanced mathematics.
Linear Algebra, General Physics, Computer Basics, C Language, English, etc. After the senior year, professional courses will be offered, such as inorganic chemistry, organic chemistry, physical chemistry, analytical chemistry, introduction to materials science and engineering, physical properties of materials, mechanics of materials, fundamentals of materials engineering, basic experiments of materials majors, mechanical properties of engineering materials, modern materials research technology, and so on. (Specialized courses may vary depending on the focus of each school.)
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Materials Science and Engineering is an undergraduate major in ordinary colleges and universities, which is a major in materials, with a basic study period of four years and a bachelor's degree in engineering. In 2012, the major officially appeared in the Catalogue of Undergraduate Majors in Colleges and Universities (2012).
The major of materials science and engineering cultivates engineering and technical talents who have knowledge of metal materials science and engineering, have a solid theoretical foundation and humanistic feelings, and have strong engineering practice and innovation ability, and can be engaged in scientific research, technology development, process and equipment design, production and operation management in the fields of metal materials and their composite materials preparation, molding, heat treatment, etc.
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Materials Science and Engineering juniors, this disciplineAccumulation is required, you will become a talent over time, so it is more recommended for youGraduate school entrance examination。This major is very slow.,It's impossible to figure it out for four years of college.,And one more thing.,If the subject is a girl.,Don't look good at it.,Run.。 This major is really unfriendly to girls.
There are many material directions, including iron and steel metallurgy, ceramics, metals, inorganic non-metals, and the employment prospects in these directions are very general. The following is our usual class schedule, there are many basic subjects that we have to learn in professional courses, especially the foundation of materials science is the most important and the most difficult to learn. As for the main courses offered by the major:
Inorganic Chemistry, Organic Chemistry, Physical Chemistry, Engineering Mechanics, Principles of Chemical Engineering, Polymer Chemistry, Polymer Physics, Research Methods of Materials Science, Composite Materials, Dielectric Materials and Components, etc. It's boring.
If you learn the basics of materials science well, you will learn too shallow in the four years of college, and only at the level of graduate students will you start to study deeply. But there is nothing difficult in the world, only afraid of those who have a heart. If you are interested in blazing a trail in this thorny land, then materials science can offer the possibility to match your curiosity.
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The main majors of materials engineering are as follows:
1. Professional introduction: Cultivate senior technical application professionals engaged in the preparation, processing and molding, material structure and other fields of technology development and transformation, process and equipment design and operation management of various materials.
2. Professional core competence: with the ability of material preparation, processing and molding technology, technology development, process transformation and operation management.
3. Professional core courses and main practical links: material mechanics, engineering materials, material technology and equipment, heat treatment process and equipment, industrial enterprise management and technical and economic foundation, material structure microscopic analysis, modern instrument analysis methods, material physical properties and mechanical testing, material preparation and molding processing technology, metalworking practice, electrical and electronic practice, understanding practice, curriculum design, graduation project, etc., as well as the main characteristic courses and practical links of each school.
4. Employment orientation: material preparation, processing and molding production enterprises are engaged in production and operation, product quality testing and production technology management, and the design and management of coating technology.
5. Compulsory courses: main disciplines: materials science and engineering, chemistry, physics.
Main courses: Physical Chemistry, Quantum and Statistical Mechanics, Solid State Physics, Introduction to Materials Science, Fundamentals of Materials Science, Materials Physics, Materials Chemistry, Materials Mechanics, Materials Science Research Methods, Materials Technology and Equipment, Computer Application in Materials Science, etc. Main Practical Teaching Links:
Including professional experiments, metalworking internships, electrical and electronic internships, understanding internships, production internships, curriculum design, graduation projects (**). Main professional experiments: microscopic analysis of material structure, modern instrument analysis methods, physical and mechanical properties testing of materials, material preparation and molding processing technology experiments, etc.
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The courses of the materials engineering major include: Advanced Mathematics, General Physics, Linear Algebra, Analytical Chemistry, Organic Chemistry, Materials Research Methods, Physical Properties of Materials, Heat Treatment of Materials, Preparation and Processing of Materials, Materials Analysis Methods, Engineering Materials Science, Mechanical Properties of Materials, etc. The details are as follows:
1. The curriculum must be able to support the achievement of the training goals, and the curriculum system must be able to effectively meet the graduation requirements. About 20% of them are general courses in the humanities and social sciences; About 20% of the courses are mathematics and natural sciences, 20% are practical combat, and 35% are basic knowledge and professional knowledge of the subject.
2. Materials Science, Physical Chemistry, Quantum Statistical Mechanics, Solid State Physics, Materials Physics, Materials Chemistry, Materials Mechanics, Modern Materials Testing Methods, Materials Technology and Equipment, Materials Thermodynamics, Functional Materials and Their Applications.
3. The undergraduate major of the Department of Materials Science and Engineering belongs to the major of materials science, and its basic study period is four years, and a bachelor's degree in engineering is awarded. In 2012, the Catalogue of Undergraduate Majors in Colleges and Universities (2012) officially included this major.
4. Materials Supplement: Materials Science and Engineering has a solid theoretical foundation and humanistic feelings, and has strong engineering practice ability and innovation ability. Students graduating from this major can engage in the basic theoretical research of materials science and engineering, the research and development of new material technology and new technologies, production process development, process control, material application and other fields of scientific and technological work, and undertake the teaching, scientific and technological management and operation of related professional fields.
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The main contents of the major of materials engineering include: fundamentals of materials science, physical chemistry, quantum and statistical mechanics, solid state physics, materials physics, materials chemistry, materials mechanics, modern materials testing methods, materials technology and equipment, materials thermodynamics, functional materials and applications, etc. Materials engineering generally refers to materials science and engineering, materials science and engineering is an undergraduate major in ordinary colleges and universities, which is a material major, with a basic study period of four years and a bachelor's degree in engineering.
Competencies for Materials Engineering Students:The major of materials science and engineering mainly cultivates engineering and technical talents who have knowledge of metal materials science and engineering, have a solid theoretical foundation and humanistic feelings, and have strong engineering practice and innovation ability, and can be engaged in scientific research, technology development, process and equipment design, production and operation management in the fields of metal materials and their composite materials preparation, molding, heat treatment, etc.
Students graduating from this major can not only engage in scientific and technological work in the field of materials science and engineering, such as basic theoretical research of materials science and engineering, research and development of new material technology and new technology, production technology development and process control, and material application, but also undertake teaching, scientific and technological management and operation in related professional fields.
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Major in Materials Engineering.
It is a discipline that studies the composition, structure, processing technology, performance and application of materials. In modern science and technology, materials science is the national economy.
One of the three pillars of development. The main professional directions are metal materials and inorganic non-metallic materials.
Polymer materials, wear-resistant materials, surface strengthening, material processing engineering, etc.
Direction of employment. After graduation, students majoring in materials engineering can go to materials and polymer composite molding and processing, polymer synthesis, chemical fibers, new building decoration materials, modern spraying and packaging materials, ceramics, cement, household appliances, electronic and electrical, and automobile factories.
Iron and steel enterprises, petrochemical enterprises, manufacturing enterprises, aerospace and other enterprises are engaged in design, new product development, production management.
Market management and first-class department work, you can also go to colleges and universities, scientific research units to engage in scientific research and teaching, but also to the first-class department to engage in administrative management, quality supervision and other work.
Introduction to the profession. Materials Science and Engineering is an undergraduate major in ordinary colleges and universities, which belongs to the major of materials.
The basic duration of study is four years, and a bachelor's degree in engineering is awarded. In 2012, the major officially appeared in the Catalogue of Undergraduate Majors in Colleges and Universities (2012).
Materials Science and Engineering.
Cultivate engineering and technical talents who have knowledge of metal materials science and engineering, have a solid theoretical foundation and humanistic feelings, and have strong engineering practice and innovation ability, and can be engaged in scientific research, technology development, process and equipment design, production and management in the fields of metal materials and their composite materials preparation, molding, heat treatment, etc.
Materials Science and Engineering is not suitable for girls, but it is okay for girls to study. >>>More
Dude, why are you so negative about finding a job? After graduation, a lot of certificates are not very useful, I have classmates who spent more than 5,000 yuan to take the software engineer exam after graduation, and the result is that the certificate is in hand, but the same is not to find a very satisfactory job. If you have a good family, it's nothing. >>>More
There are many directions for surface engineering. Generally, there are three directions: surface modification, thin film technology and coating technology. There are many subdivisions of these three directions, and each of them can be studied until a Ph.D. is graduated. >>>More
If it is easier to find a job, it is better to choose material processing and metal materials, because these two majors are oriented to practical applications, such as the steel industry, metal processing, etc. If you want to study the selection of electronic information materials, this major seems to be very popular now, and they are used in high-tech, high value-added products, the last question is not very clear, I hope you find a direction that suits you.
Your question is not very good. I also came out of materials science and engineering, and I have a master's degree. He is currently working for five years. >>>More