-
Chemical engineering and technology are more classic, and polymer materials and engineering are more avant-garde. The course makes no difference. Polymer materials and engineering require a wide range of knowledge, which is more difficult from this point of view.
Chemical engineering and technology requires a high level of mathematical and numeracy skills, and it is not easy from this point of view. For individuals, of course, the prospect is that chemical engineering and technology are better. Adaptable and able to work in a wide range of professions.
Naturally, employment is needless to say.
-
What school to report for the course, there is basically a general situation on the school.
The theoretical stuff is still a bit boring, and it's hard to see the personal strength.
The prospect is average, and I can't do anything advanced when I go out as an undergraduate, I need years and experience to accumulate, and so is employment, the starting point is not high, and it is not recommended to study chemistry if I don't want to live a mediocre life, although I also liked chemistry at the beginning.
I'm a materials chemist, polymer, biased towards polymerization.
-
Polymers are now more popular because new polymer materials are emerging one after another. Chemistry is a bit similar to physics, a lot of fluid mechanics knowledge, and formulas, if you don't like physics, you need to think twice, most of the polymers are in chemistry, but the study is more polymerization reactions, and high school chemistry is a little different, employment depends on the individual, which major has a good development, in addition to I studied chemical engineering, I think it may be a little difficult for our professional girls to find a job.
-
The upstairs said that it was good, but the working conditions of the chemical process were not good.
-
There are some differences in the fields and employment directions involved in these majors, which can be summarized as follows:
Materials chemistry: It mainly involves the study of the chemical properties, structure and synthesis methods of materials, as well as the analysis, testing and characterization of materials. Employment directions include chemical industry, materials, electronics, optoelectronics and other fields.
Applied Chemistry: It mainly involves the application of chemistry in industrial, biological, environmental and other fields, such as drug synthesis, material surface modification, environmental pollution control, etc. Employment directions include chemical, pharmaceutical, environmental protection, food and other fields.
Polymer Materials and Engineering: It mainly involves the research on the preparation, processing, performance and application of polymer materials, as well as the analysis, testing and characterization of polymer materials. Employment directions include plastics, rubber, textiles, electronics, aerospace and other fields.
Chemical Engineering and Technology: It mainly involves the engineering design and optimization of chemical reactions, including reactor design, process control, heat and mass transfer, etc. Employment directions include chemical, petrochemical, metallurgy, energy and other fields.
Materials Science and Engineering: It mainly involves the research on the structure, properties and applications of materials, including the research of various materials such as metals, ceramics, polymers, and composite materials. Employment directions include materials, aerospace, automobiles, electronics, new energy and other fields.
Lightweight engineering: mainly involves the preparation and application of lightweight materials (such as foam plastics, foamed rubber, etc.), including process design, performance improvement, product development and other aspects. Employment directions include automobiles, home appliances, construction, packaging and other fields.
Metal materials: It mainly involves the research on the preparation, processing, properties and application of metal materials, as well as the analysis, testing and characterization of metal materials. Employment directions include metals, aerospace, automotive, machinery, and other fields.
-
Polymer materials and engineering is an engineering discipline and belongs to materials science courses, which is different from chemical engineering, and focuses on materials.
Differences: 1. The courses are different.
The main courses of polymer materials and engineering are:
Basic courses such as inorganic chemistry, analytical chemistry, organic chemistry, physical chemistry, mechanical drawing, mechanics of materials, mechanical design, polymer chemistry, polymer physics, basic courses of materials science, plastic molding technology, plastic molding equipment, functional polymer materials, adhesives, rubber materials, polymer experimental technology, polymer material testing technology and other professional courses.
The main courses in chemical engineering are:
Advanced Mathematics, College Physics, Computer Programming Language, Basic Foreign Language, Inorganic Chemistry, Organic Chemistry, Physical Chemistry, Analytical Chemistry, Polymer Chemistry, Colloidal Chemistry Fundamentals.
2. Different training directions.
Polymer materials engineering: pay attention to the combination of polymer materials and engineering.
Chemical Engineering and Technology: In addition to learning basic knowledge and basic theories, students will also receive scientific thinking and scientific experiment training in basic research and applied basic research, and obtain good scientific literacy. Students develop the ability to apply the knowledge and experimental skills they have learned to conduct applied research, technology development, and technology management.
-
Summary. Pro-<>
<> "Hello! Glad to serve you! The major of polymer materials and engineering involves chemistry for the following reasons
Polymer chemistry and physics are the foundation of polymer science, which is an interdisciplinary discipline with polymer materials as the basic research object. Compared with other sub-disciplines of chemistry, it has a more profound relationship with modern physics, and its development is more dependent on the progress of chemistry and physics, and at the same time has a profound impact on the progress of these two axial sciences.
The major of polymer materials and engineering involves chemistry, why the subject selection requirement is physics.
I didn't study chemistry in high school, and I was admitted to polymer materials, can I study it?
<> <> "Hello! It's a pleasure to serve you! The major of polymer materials and engineering involves chemistry for the following reasons
Polymer chemistry and physics is an interdisciplinary discipline with polymer materials as the basic research object, which is the foundation of polymer science. Compared with other sub-disciplines of chemistry, it has a more profound relationship with modern physics, and its development is more dependent on the progress of chemistry and physics, and at the same time has a profound impact on the progress of these two axial sciences.
The major of polymer materials and engineering takes chemistry and materials science and engineering as the main disciplines, and learns the basic theories, professional lead knowledge, Huai Min experimental skills, and computer application of polymers. The students trained in this major have the characteristics of science and engineering, and they can not only engage in the research of new polymeric materials, but also engage in material preparation, processing technology development and production technology management.
I didn't study chemistry in high school, and I was admitted to polymer materials, can I study it?
Yes pro. Some comments on the Internet say that not choosing chemistry in high school has a great impact on polymer materials and engineering, is this true?
No, dear.
-
As a student majoring in polymer materials and engineering, it is very important to have an understanding and mastery of chemistry. While there will be relevant chemistry foundation courses in the specialist curriculum, a good understanding and mastery of chemistry can bring the following benefits:
Basic knowledge understanding: The field of polymer materials and engineering involves many chemical principles and reaction mechanisms. Knowledge of chemistry can help you better understand the synthesis, the relationship between structure and properties of polymer materials, as well as their properties and behavior in practical applications.
Synthesis and modification: The synthesis and modification of polymer materials usually involve chemical reactions and chemical methods. Understanding the principles and conditions of chemical reactions can help you design and optimize synthetic routes and modification methods for polymer materials.
Analysis and characterization: Chemistry plays an important role in the analysis and characterization of polymer materials. Understanding chemical analysis techniques and instrumentation can help you accurately characterize the structure, composition, and properties of polymer materials.
Although chemistry is crucial in polymer materials and engineering, that doesn't mean you need to be a chemistry expert. Specialist courses provide the required fundamentals of chemistry and build your understanding and mastery of chemistry progressively as you learn. It is important to maintain an interest in chemistry and strive to learn and apply relevant knowledge in order to better understand and apply it in the field of polymer materials and engineering.
-
Summary. 1. English 2, Mathematics 3, Politics 4, Professional Course 5, Polymer Materials Science and Engineering Postgraduate Entrance Examination and many postgraduate examinations are required to take public courses and professional courses. There is no difference between politics and mathematics in public courses and normal engineering, English 2 if it is a master's degree, English 1 if it is a master's degree in English, and polymer physics if it is a master's degree in English.
Can the Polymer Materials and Engineering Postgraduate Examination Cross the Examination of Chemical Engineering and Technology?
1. English 2, Mathematics 3, Politics 4, Professional Course 5, Polymer Materials Science and Engineering Postgraduate Entrance Examination and many postgraduate examinations are required to take public courses and professional courses. There is no difference between politics and mathematics in public courses and normal engineering, English 2 if it is a master's degree, English 1 if it is a master's degree in English, and polymer physics if it is a master's degree in English.
It is possible to take the postgraduate examination across majors.
Chemical engineering depends on which college you are admitted to, most of them have to take the principles of chemical engineering, and this must have been studied in undergraduate but it is one semester, and the chemical major has to study for one year, so this aspect should be strengthened. Of course, some colleges and universities want to test materialization, or it depends on the specific situation. The counterpart of the chemical industry is the design institute chemical plant, of course, it is difficult to say that it is not right, the profession is not so important in this era, the premise is that you know a certain aspect of knowledge.
Polymer graduation plastics, rubber processing, paints, binders, etc., depending on your interest.
-
Polymer Materials and Engineering mainly focuses on "Polymer Chemistry", "Polymer Material Forming and Processing", "Polymer Materials Science", "Polymer Molding Process", "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.
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.
Polymer materials and engineering majors can be engaged in the synthesis and processing 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.
The universities include Tsinghua University, Zhejiang University, Fudan University, University of Science and Technology of China, Sun Yat-sen University, Harbin Institute of Technology, Sichuan 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.
If you have any questions about the self-examination and college upgrade, do not know the content of the self-examination college upgrade test center, and do not know the local self-examination college upgrade examination policy, click on the bottom to consult the official website to get a personal education promotion plan for free:
-
When filling in the college entrance examination, how about the polymer materials and engineering major, what are the employment directions, and what are the main questions that the majority of candidates and parents and friends are very concerned about, the following is the relevant information I have compiled for you, I hope it will be helpful to you.
The main courses include General Chemistry, Organic and Polymer Chemistry, Polymer Physics, Polymer Rheology, Polymer Materials, Plastic Molding Technology, Fundamentals of Mechanical Manufacturing, Mold Materials and Manufacturing, Research Methods of High-Scoring Materials, Functional Polymer Materials, Plastic Molding Mold Design, Mold Computer-Aided Design, Electrical and Electronic Technology, Business Management, etc.
Students in this major mainly learn the basic theories of polymer chemistry and physics, the composition, structure and properties of polymer materials, and the technical knowledge of polymer molding and processing, so as to have the basic skills of polymer material research and processing.
The prospects of this major are very optimistic, and the graduates are mainly engaged in the synthesis, processing, scientific research, technology development, process and equipment design, production and operation management of polymer materials in domestic and foreign-funded enterprises.
The demand for polymer materials and engineering professionals is still expanding, and it is not difficult to find a job that corresponds to the polymer materials and engineering major, but it is difficult to find a promising job.
Intuitive data show that the employment rate of polymer materials is relatively high, at more than 92%. The predecessors chose state-owned enterprises, private and private enterprises, foreign-funded enterprises, and scientific research and design units.
The chemical engineering and technology major has a good employment side, you can go to factories and design institutes, and most of my classmates go to factories and a few go to different design institutes. >>>More
Chemical engineering mainly studies engineering problems, such as reactor design, process optimization, scale-up of various processes. Chemical engineering takes the process as the research object, the optimization of the system as the main purpose, and the main content is the optimization of the operation and reaction process of each unit and the optimization of the process. Relatively large research directions include distillation process, extraction process, crystallization, chromatography and so on. >>>More
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.
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. >>>More
There is a saying that the 21st century is the century of polymers, and the prospects are very broad. Majors are mainly divided into synthesis and processing, and are subdivided into rubber, plastics, fibers, coatings, adhesives, composite materials, and new materials. As far as the current employment situation is concerned, there is a great demand for talents, but the salary package is generally in the chemical industry, and different positions and companies are different. >>>More