After graduating from mechanical design and manufacturing, and wanting to develop a mechanical engin

Basic: first do the basic machining technician, to learn to compile machining technology, design special processing tooling, special measuring tools, etc., a sentence a mechanical part as soon as you get it, you should know how it is processed, what the processing technology is.

Advanced: Understand the cost of various processing technologies, specific to the unit processing cost of turning, milling, planing, grinding, drilling and other equipment, including all kinds of CNC equipment, to put it bluntly, it will be the first time, a part can be used through simple calculations to know how much it costs, how much should be reported;

You can change the company (generally so), contact some of the processing and design of the whole machine equipment, because at present, pure mechanical equipment is rare, and it is necessary to know some mechanical and electrical coordination knowledge, including assembly process;

Must be familiar with some other processes, such as casting (precision casting, sand casting, etc.), forging, stamping, heat treatment, etc., including basic processes, principles, costs and some parameters, etc.;

It is also necessary to be familiar with various materials, steel, iron, copper, aluminum, etc. grades, properties, uses, etc.;

You also have to be familiar with various surface treatment processes, such as hot plating, electroplating, carburizing, bluing, electrophoresis, etc.;

Basically, that's all, it's more general, because different industries are definitely different, such as the crane industry, the automotive industry, the special equipment industry, etc., the specific requirements and development directions are different, but the above are some more basic things.

Of course, 2D, 3D graphics, and English are the most basic, needless to say.

Workshop technician then to workshop engineer, then to technical technician, then to technical engineer to R&D technician, then to R&D engineer and finally to chief engineer!

Summary. Generally speaking, the machinery industry mainly includes mechanical design, machinery manufacturing, machinery maintenance, etc. Of course, the development prospects and wages are also different. The average salary of mechanical design is about 8,800 yuan.

Is the work of mechanical design, manufacturing and automation after graduation the kind of work that workers work in factories?

Pro-mechanical design and automation of this faction and dismantling specialty, all the parts involved in the design and manufacturing, are completed in the factory. However, the design and manufacture of complete parts cannot be completed by one person, so there are many different positions in the factory, and the individual is only one of them. Even if you work in a design institute, you have to go to the front-line position of the factory to check and solve the technical problems encountered in production.

Is there any type of machinery that pays well?

Generally speaking, the machinery industry mainly includes mechanical design, machinery manufacturing, machinery maintenance, etc. Of course, the change of pre-development is different from the salary. The average salary of a nuclear engineer in mechanical design is about 8,800 yuan.

A lot of people say that this kind of work is not easy to promote, and I don't know which one to choose, I thought I could be in the office office.

Yes, it depends on personal ability, for example, some mechanical designers can be in the office.

Manufacturing engineers don't have to specialize in mechanical engineering. Although the mechanical engineering major plays an important role in the discipline of manufacturing engineering, the field involved in manufacturing engineering is very broad, including mechanical, electronic, materials, technology, and other disciplines.

Manufacturing engineers are responsible for designing, developing, and optimizing production processes for efficient product manufacturing. They need to have interdisciplinary knowledge and skills, including design, process, quality management, **chain management, etc.

In addition to mechanical engineering, other majors such as electrical engineering, manufacturing engineering, industrial engineering, materials science and engineering and other related majors can also lay the foundation for Min Hail to become a manufacturing engineer. In addition, different industries and fields may have different requirements for the specific expertise of manufacturing engineers, such as automotive manufacturing, aerospace, electronic device manufacturing, and many more.

As a result, the professional background of a manufacturing engineer can vary depending on the individual's interests, industry, and role. It is important to acquire interdisciplinary knowledge and skills in order to work and develop in the field of manufacturing engineering.

Manufacturing engineers don't necessarily have to be mechanical, but mechanical engineering is indeed the most common professional background for manufacturing engineers.

Creation engineers are a broad profession that requires many different skills. Mechanical engineering is the most common professional background for manufacturing engineers, as it covers many of the skills required in the manufacturing process, such as mechanical design, materials science, production technology, and robotics, among others. However, manufacturing engineers may also need to master other areas of expertise, such as electrical engineering, computer science, and chemical engineering, among others.

If you want to become a manufacturing engineer, consider studying mechanical engineering or another related major. In addition, you can increase your skills and knowledge by participating in internships or work experience. For example, you can intern or work at a manufacturing company to learn about manufacturing processes and technologies and learn how to manage manufacturing projects.

In terms of practical answers, it is recommended that you learn more about the responsibilities and work content of manufacturing engineers, including designing and developing new products, improving manufacturing processes, improving production efficiency and quality, and solving problems in manufacturing. Plus, you'll learn about some of the skills and tools needed by manufacturing engineers, such as CAD software, machine learning, and artificial intelligence.

In conclusion, while a mechanical engineering major is one of the most common professional backgrounds for manufacturing engineers, it is not the only option. With a lot of understanding and practice, you can succeed in the field of manufacturing engineer.

The mechanical engineering major is a broad field that covers all aspects from design to manufacturing, from maintenance to management. Mechanical engineering graduates can find employment opportunities in many different industries, and here are some possible employment options:

1.Machinery manufacturing industry.

Mechanical manufacturing is one of the most common areas of employment for mechanical engineering graduates. The machinery manufacturing industry includes a variety of manufacturing enterprises, such as automobiles, aircraft, machine tools, ships, etc. Mechanical engineering graduates can be involved in all aspects of product design, manufacturing, testing, quality control, maintenance, and more.

2.Engineering and consulting.

Mechanical engineering graduates can also find employment opportunities in engineering design and consulting. They can engage in engineering design, consulting, research, and other work in engineering companies, consulting companies, design companies, and other units. These jobs include product design, manufacturing process design, production line planning, project management, etc.

3.R&D and innovation.

Mechanical engineering graduates can also pursue careers in R&D and innovation. They can be engaged in the research, design and development of new products in scientific research institutions and high-tech enterprises. These jobs require mechanical engineering graduates to have strong research and innovation capabilities, and to be able to complete the research and development of projects independently.

4.Education and academic research.

Mechanical engineering graduates can also pursue careers in education and academic research. They can engage in mechanical engineering teaching and research in colleges and universities, or academic research in mechanical engineering in scientific research institutions. These jobs require mechanical engineering graduates with strong teaching and research skills, and the ability to contribute new research results and theories.

5.Other areas.

Mechanical engineering graduates can also find employment opportunities in other fields. For example, they can work in the production and operation departments of large enterprises in production management, quality control and technical support. or engage in policy formulation and regulatory work related to mechanical engineering in ** institutions.

In conclusion, mechanical engineering graduates can find employment opportunities in a variety of fields, including mechanical manufacturing, engineering design and consulting, research and development and innovation, hand education, and academic research, among other fields. They need to have strong technical skills and a sense of innovation to adapt to the rapidly evolving mechanical engineering industry.