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The polymer materials and engineering major is oriented to the emerging field of modern strategic new material research and development and production. In terms of professional setting, it adopts the discipline research direction as the guidance, takes the research and development of new materials such as high-performance polymer materials, functional polymer materials, plastics, fibers, environmental materials, biomedical materials, and nanomaterials as its professional characteristics, strengthens the teaching and academic team building of the professor responsibility system, and has professional directions such as polymer synthesis, polymer molding and processing, and environmental materials; In terms of training program, the chemistry series courses are the main discipline foundation, and the knowledge of biology, environment, instruments and other related disciplines is elective, and the core courses of polymer chemistry and physics, polymer synthesis, polymer material molding and processing, and polymer materials research methods are strengthened, and the independent electives of polymer preparation engineering, material processing engineering, environmental materials, biomedical materials and other professional directions are highlighted. In terms of training mode, it implements research-based learning and research-based experimental teaching, has internship bases such as Beijing Yanshan Petrochemical and Qinhuangdao Science and Technology Park, and is forming professional elective courses such as bilingual teaching and computer synthesis design application. This major is a first-class backbone technical talent proposed by large and medium-sized enterprises above designated size and high-tech industrial development zones and research institutes, with stable and flexible employment channels.
This major cultivates senior engineering and technical talents who have knowledge of polymer materials and engineering, and can be engaged in scientific research, technology development, process and equipment design, production and operation management in the fields of polymer material synthesis, modification, analysis and testing, processing and molding.
This major cultivates students to systematically master the basic theories and techniques of materials science, have the basic knowledge and basic skills related to materials physics, and be able to engage in the research, design, development and manufacturing of new materials and functional materials, performance testing and production management of materials and functional materials in the fields of machinery, electronic metallurgy, energy, electric power, communications, petrochemical and other industries in the fields of materials science and engineering, as well as teaching and scientific research in universities and research institutes.
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The major of polymer materials and engineering cultivates senior engineering and technical talents who have knowledge of polymer materials and engineering, and can be engaged in scientific research, technology development, process and equipment design, production and operation management in the fields of polymer material synthesis, modification, analysis and testing, processing and molding.
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After graduating from the polymer materials and engineering major, you can become a teacher, but generally you have to be admitted to graduate school to have a better chance. R&D and design companies, especially chemical R&D, require more students majoring in this major.
Can I become a teacher after graduating from the Polymer Materials and Engineering major?
Hello dear! <> polymer materials and engineering majors can be teachers after graduation, but generally the opportunity to be a graduate student will be greater. R&D and design companies, especially chemical research and development materials, need more students in this major.
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Polymer compounds, referred to as polymers, also known as high-fraction polymers, generally refer to compounds with relative molecular masses as high as thousands to millions, and the vast majority of polymer compounds are mixtures of many homologues with different relative molecular weights, so the relative molecular weight of polymer compounds is the average relative molecular weight. Polymer compounds are made up of thousands of atoms linked to each other by covalent bonds, and although their relative molecular masses are large, they are all connected by simple structural units and repeated square mismatches.
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The Department of Polymer Materials and Engineering is a research program that studies polymer finger cover materials.
Polymer Materials and Engineering is a discipline that studies the properties, preparation, application and engineering design of polymer materials. It involves the synthesis, modification, processing, performance testing of polymer materials, as well as the application and promotion in various fields.
Polymer materials and engineering has a wide range of applications in modern industry and life, involving materials science, chemical engineering, mechanical engineering, electronic engineering, medicine and other fields. After graduation, you can work in polymer materials research and development, materials engineers, engineering technicians, production management, etc.
Learning content
Polymer material processing technologyLearn the molding technology of polymer materials in the processing process, such as extrusion, injection molding, blow molding, calendering, extrusion, etc. Learn about how polymer materials behave and perform under different processing conditions, and how to control and optimize the process.
Basic knowledge of polymer materialsLearn the basic knowledge of chemistry, physics, structure and properties of polymer materials, including polymer long chain structure, molecular weight distribution, chain structure, glass transition, melting temperature and thermal stability.
Preparation and modification of polymer materialsLearn the preparation methods of polymer materials, such as polymerization reaction, copolymerization reaction, cross-linking reaction, etc. At the same time, understand the modification methods of polymer materials, such as additives, fillers, surface modifications, etc., to adjust the properties and application range of materials.
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"Polymer Materials and Engineering": It is a discipline that cultivates senior engineering and technical talents who have knowledge of polymer materials and engineering, and can be engaged in scientific research, technology development, process and equipment design, yardstick production and operation management in the fields of synthetic modification and processing and molding of polymer materials.
Polymer materials and engineering is a dynamic material discipline that studies the design, synthesis, preparation, composition, structure, performance and processing application of polymer materials, and its late high industry and research system has become a pillar industry of national economic development.
Main courses: Organic Chemistry, Physical Chemistry, Polymer Chemistry, Polymer Physics, Polymer Rheology, Polymer Molding Technology, Polymer Processing Principles, Research Methods of Polymer Materials.
What the hell do you need those words?
This problem is too big, polymer materials are mainly divided into plastics, rubber, coatings, fibers, adhesives, and special polymers. Employment is mainly in these aspects. Take a look at my previous analysis of direction.
You can go to relevant professional enterprises and factories to do process, sales, quality, product research and development, I am personally a polymer professional, now I am a process engineer, and I have also done product research and development (product engineers do it) for a period of time, or go to technology, it is best to ug and so on, it is relatively easy to find a job.
Before the polymer material is processed, it is synthesized to synthesize the monomer into a polymer for granulation, and then it is melt processed. The synthesis methods of polymer materials include bulk polymerization, suspension polymerization, emulsion polymerization, solution polymerization and gas phase polymerization. Among them, initiators play a very important role, azo initiators and peroxide initiators are commonly used initiators, and polymer material additives often play an obvious role in improving the performance of polymer materials and reducing costs. >>>More
The phenomenon of copolymer interaction has become the focus of basic research and applied in-depth research on polyelectrolyte complexes (PECS). Polyelectrolyte complexes made from natural polymers such as proteins and polysaccharides have the added advantage of being non-toxic, bioresorbable. The interaction of protein-based polyelectrolytes has received extensive attention in biotechnology and biomedical sensor applications, such as protein purification, enzyme immobilization, enzyme-linked immunosensing, and bioactivity sensors. >>>More