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Main courses: organic chemistry, physical chemistry, polymer chemistry, polymer physics, polymer rheology, polymer molding process, polymer processing principles, polymer materials research methods and other main practical teaching links: including metalworking practice, production practice, professional experiments, computer application and computer practice, course design, graduation project (**).
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Senior engineering and technical personnel who can be engaged in scientific research, technology development, process and equipment design, production and operation management in the fields of synthesis, modification and processing of polymer materials. Students in this major mainly learn the basic theories of polymer chemistry and physics, the composition, structure and properties of polymer materials, and the knowledge of polymer molding and processing technology, so as to have the basic skills of polymer material research and processing. Main disciplines:
Main courses of materials science and engineering: Principles of Chemical Engineering, Inorganic Chemistry, Organic Chemistry, Analytical Chemistry, Physical Chemistry, Polymer Chemistry, Polymer Physics, Polymer Rheology, Polymer Molding Process, Principles of Polymer Processing, Fine Polymer Chemical Applications, Research Methods of Polymer Materials. Main Practical Teaching Links:
Including metalworking practice, production practice, professional experiment, computer application and computer practice, curriculum design, graduation project (**). Main professional experiments: polymer chemistry experiments, polymer synthesis, polymer material molding, etc.
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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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Summary. Graduates of polymer materials and engineering can be engaged in the development, processing and modification, process and application, production technology management, market development and teaching in the fields of plastics, rubber, fibers, coatings, adhesives and composite materials in enterprises, universities, scientific research institutions and other units in petrochemical, electronic and electrical appliances, building materials, automobiles, packaging, aerospace, military industry, textiles and pharmaceutical systems; or research and development of high-performance materials, functional materials, biomedical materials, optoelectronic materials and other special polymer materials for high-tech fields.
What kind of work can be done in polymer materials and engineering.
Graduates of polymer materials and engineering can be engaged in the development, processing and modification, process and application, production technology management, market development and teaching in the fields of plastics, rubber, fibers, coatings, adhesives and composite materials in enterprises, universities, scientific research institutions and other units in petrochemical, electronic and electrical appliances, building materials, automobiles, packaging, aerospace, military industry, textiles and pharmaceutical systems; or research and development of high-performance materials, functional materials, biomedical materials, optoelectronic materials and other special polymer materials for high-tech fields.
Polymer materials are indispensable for any industry, from clothing and eating, computers and mobile phones, to buildings, aerospace. The demand for polymer materials and engineering professionals is still expanding, and it is not difficult to find jobs that correspond to polymer materials and engineering majors. There are jobs in the main directions of polymer materials, such as plastics, rubber, synthetic fibers, adhesives and coatings, and composite materials in the cross-cutting field.
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Polymer Materials and Engineering is a discipline that studies the structure, properties and applications of polymer compounds, as well as related engineering technologies.
Knowledge Expansion:
Polymer materials are polymers composed of a large number of repeating units that can be classified according to their **, structure and properties. The structure and properties of polymer materials are closely related, including molecular weight, molecular weight distribution, molecular structure, side chain, stereotype, crystallinity and other factors affect their mechanical, thermal, electrical and other properties.
Polymer materials can be synthesized by polymerization reaction, copolymerization reaction, cross-linking reaction and other methods, and the common synthesis methods include free radical polymerization, anionic polymerization, cationic polymerization, epoxy resin curing, etc.
Polymer materials have a wide range of applications in various fields, such as plastics, rubber, fibers, coatings, adhesives, electronic materials, medical cracking materials, etc., providing important basic materials for the development of modern society.
In order to meet the needs of different fields, the properties of polymer materials need to be modified and improved. Common methods include additive modification, filler enhancement, blending modification, surface modification, etc.
Polymer materials engineering is based on polymer materials, through theoretical analysis, experimental research, engineering design and other methods, to study the processing technology, preparation technology, engineering application and other issues of polymer materials.
With the continuous progress of science and technology and the continuous improvement of social needs, polymer material engineering is developing in the direction of multi-functional, high-performance, low-cost and environment-friendly, and also pays attention to sustainable development and resource recycling.
Polymer materials have extensive interdisciplinary research with chemistry, physics, materials science, biomedical engineering and other disciplines, which promotes the cooperation and development of various disciplines.
The research of polymer materials engineering is of great significance to promote the development of materials science, promote the progress of industrial technology and improve the quality of human life, and will open up more application prospects in the fields of energy, environment and medical treatment in the future.
The field of polymer materials faces many challenges, such as sustainable development, resource utilization efficiency, engineering application technology, etc., but at the same time, it also provides scientists and engineers with many opportunities and space for innovation.
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The main courses of polymer materials and engineering: general chemistry, organic and polymer chemistry, polymer physics, polymer rheology, polymer materials, plastic molding technology, mechanical manufacturing basics, mold materials and manufacturing, polymer materials research methods, functional polymer materials, plastic molding mold design, mold computer-aided design, electrical and electronic technology, business management, etc.
1. Training objectives: Polymer material processing engineering major cultivates senior engineering and technical talents with knowledge of polymer materials and engineering, and can be engaged in scientific research, technology development, process and mold design, production and operation management in the fields of polymer material synthesis and processing molding.
2. Training requirements: can be engaged in the research of polymer materials such as plastics, the design, production, development and testing of plastic products and molds in relevant enterprises and institutions, and can also be engaged in the management and operation of materials and products in the materials, materials and foreign trade departments, and the testing of materials in commodity inspection and quality inspection departments.
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Polymer Materials and Engineering mainly studies the basic knowledge and skills of the composition, structure, performance, preparation and processing application of polymer materials (such as rubber, fiber, plastic), and synthesizes and processes polymer materials for industrial production, such as rubber material processing for vehicle tires, superabsorbent resin materials for baby diapers, etc.
The main courses of polymer materials and engineering are "Polymer Chemistry", "Polymer Material Forming and Processing", "Polymer Materials Science", "Polymer Molding Technology", "Polymer Molding Processing Principle", "Polymer Material Processing Engineering Equipment", "Engineering Drawing and CAD Technology", "Polymer Rheology", "Rubber Technology", "Physical Chemistry of Materials", "Electrical and Electronic Technology", "Molecular Design and Chemical Engineering", etc. Some colleges and universities train in the following professional directions: synthesis, plastic engineering, rubber engineering.
The universities include Tsinghua University, Zhejiang University, Fudan University, University of Science and Technology of China, Sun Yat-sen University, Harbin Institute of Technology, Sitan Laozhichuan University, Beijing Institute of Technology, Jilin University, Central South University, Dalian University of Technology, Northwestern Polytechnical University, Nanjing University of Science and Technology, Suzhou University, East China University of Science and Technology, Shanghai University, Jinan University, Ocean University of China, Wuhan University of Technology, Southwest Jiaotong University, etc.
Career Prospects in Polymer Materials and Engineering:
Polymer materials and engineering can be engaged in the synthesis and application of inorganic non-metallic materials, product research and development, chemical engineering, plastic engineering, technology development, process design, production technology management, etc. in industrial enterprises, and can also be engaged in chemical synthesis, chemical experiments, chemical analysis, etc.
With the entry of mankind into the new century and the development of science, whether it is in the field of industry, construction, medical or aviation, materials science is facing technological breakthroughs and major industrial development opportunities. At the same time, the technological innovation of new materials represented by polymer materials, nanomaterials, optoelectronic materials, biomedical materials and new energy materials is also very active. Many daily chemical, machining, petrochemical, and steel manufacturing enterprises need talents in materials science and engineering.
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<><Polymer materialsThe contents of the book include: general plastics, general Danmin engineering plastics, special engineering plastics, thermosetting plastics, rubber, etc.
And combined with these polymer materials, the functions of various additives are introduced.
Application in polymer materials.
Finally, by explaining the basics of formula design
Design principles and a large number of recipe design examples.
Organic ChemistryOrganic chemistry (0rganic chemistry), also known as the chemistry of carbon compounds, is a science that studies the composition, structure, properties, preparation methods and applications of organic compounds, and is an extremely important branch of chemistry.
Carbonaceous compounds are known as organic compounds.
It's because chemists in the past thought.
Such a substance must be made by living beings.
Chemistry Comprehensive ExperimentsThe "Comprehensive Chemistry Experiment" has a total of 50 points of experiments, namely basic experiments, comprehensive experiments and design experiments.
The content mainly focuses on quantum and new energy materials chemistry
Medicinal Chemistry and Bioorganic Synthetic Chemistry
The three key development directions of chemistry and physics of functional high-parting dust branches are aimed at guiding students to further their development from the shallow to the deep.
Understand the basic principles and cultivate their scientific research literacy and innovation ability.
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.
What the hell do you need those words?
For example: traditional iron and steel enterprises: Shougang, Wuhan Iron and Steel, Anshan Iron and Steel, Baosteel and so on. >>>More
In terms of polymers, the University of Akron is definitely the first choice.
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