[Mechanical and Electronic Engineering Major] Mechanical and Electronic Engineering Employment Prospects Introduction to Mechanical and Electronic Engineering Major
Introduction to Mechanical and Electronic Engineering
Mechanical engineering is a discipline that involves the use of physical laws to analyze, design, manufacture and maintain mechanical systems. Engineering disciplines. Mechanical engineering is based on relevant natural sciences and technical sciences as the theoretical basis, combined with technical experience in production practice, to study and solve all theoretical and practical problems in the development, design, manufacturing, installation, operation and maintenance of various machinery. Subject.
Mechanical engineering has always developed and developed new mechanical products with the goal of increasing production, improving labor productivity, and improving the economy of production, that is, improving human interests. In the future era, the development of new products will take reducing resource consumption, developing clean renewable energy, and controlling, reducing and even eliminating environmental pollution as ultra-economic goals.
Mechanical and electronic engineering
Mechatronic engineering, commonly known as mechatronics, is a type of mechanical engineering and automation. The major of mechanical and electronic engineering includes basic theoretical knowledge, mechanical design and manufacturing methods, computer software and hardware application capabilities, and the ability to undertake the design, manufacturing, testing and development of various mechanical and electrical products and systems.
Mechatronics engineers can hold positions in important fields such as machinery and equipment manufacturing, electronic engineering and electronics industry, working in jobs that require the use of automotive and aerospace manufacturing technology, automation technology, robotics, micro and precision instrument technology , printing and media technology, audio and video technology, medical technology companies. Mechanical electronics are widely used in induction robots, automatic machine tool equipment, medical micro-devices, and transmission mechanisms of modern cars.
Mechanical and electronic engineers can undertake innovation, design, assembly, manufacturing, production and debugging, as well as system planning, solution design, preliminary work, quality control, sales, customer service, user training, consulting and After-sales service responsibilities.
Mechatronics Engineering Employment Prospects
Mechatronics engineers can work in mechanical engineering and equipment manufacturing, electronic engineering and electronics industry, working in jobs that require the use of automotive and aerospace machineryManufacturing technology, automation technology, robotics, micro and precision instrument technology, printing and media technology, audio and video technology, and medical technology. Mechanical electronics are widely used in induction robots, automatic machine tool equipment, medical micro-devices, and transmission mechanisms of modern cars.
Mechanical and electronic engineers can undertake innovation, design, assembly, manufacturing, production and debugging, as well as system planning, solution design, preliminary work, quality control, sales, customer service, user training, consulting and After-sales service responsibilities.
In the future development of the machinery manufacturing industry, there are four important trends that will have a significant impact on it.
(1) Integration of machinery manufacturing technology. In many areas of the machinery manufacturing industry, electronic control and software technology have become as important as mechanical engineering. German Gerdibach Machinery Manufacturing Company is the world’s largest company that produces glass processing systems for large glass manufacturing plants. Currently, the company’s software control devices and electronic mechanical devices account for 1/3 of its output value.
(2) Service thinking in the machinery manufacturing industry. In various fields from elevators to factory equipment, manufacturers’ profits are no longer increased by producing products according to fixed specifications, but by requiring manufacturers to produce products according to user requirements to meet users’ personalized and special needs.
(3) Global product development in the machinery manufacturing industry. Enterprise product development is not done behind closed doors, but on open public platforms and social resources. For example, Whirlpool Corporation, the largest home appliance manufacturer in the United States, reorganized its global product development team composed of two engineers to brainstorm new products and shorten the development time of certain products.
(4) The machinery manufacturing industry updates its production strategy. In order to further adapt to the market economy, revitalize my country’s machinery manufacturing industry, continuously promote my country’s machinery products to the international market, and firmly occupy the international market, it is necessary to re-understand the machinery manufacturing industry and recognize the development of the machinery manufacturing industry in the early 21st century. The general trend, the characteristics of mechanical manufacturing process equipment, and the main directions that my country’s mechanical manufacturing engineers should master high and new technologies.
High quality and high productivity have always been the main goals for the development of the machinery manufacturing industry. Therefore, the general trend of the development of the machinery manufacturing industry at the beginning of the 21st century can be summarized as the “four modernizations”: flexibility – making process equipment and process routes adaptable to the needs of producing various products, and being able to adapt to the needs of rapid replacement of processes and products; Agility – shortening the preparation time for bringing productivity to the market to a minimum, allowing the factory mechanism to flexibly shift; intelligence – an important part of flexible automation, which is a new development and extension of flexible automation; informatization – machinery manufacturing Karma will no longer be the value produced by matter and energy with the help of the power of information, but the value produced by information with the help of the power of matter and energy. Therefore, the information industry and intellectual industry will become the leading industries in society. The machinery manufacturing industry will also become information-led and adopt advanced production models, advanced manufacturing systems,A brand new machinery manufacturing industry based on advanced manufacturing technology and advanced organizational rational methods. The important characteristics of the machinery manufacturing industry at the beginning of the 21st century are reflected in its globalization, networking, virtualization, intelligence, and environmentally friendly and coordinated green manufacturing.
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