1, industry demand: with the deepening of intelligent manufacturing and Industry 4.0, more and more manufacturing enterprises are beginning to transform and upgrade to realize intelligent production. In this process, digital design and manufacturing technology professionals have become a scarce resource in the industry. They can not only find jobs in the traditional manufacturing industry, but also in new energy vehicles, electronic information, aerospace and other high-tech fields.
2, technology application: digital design and manufacturing technology covers the application of CAD/CAM/CAE and other software, CNC programming, 3D printing and other technical fields. The application of these technologies is very wide, from product design, process planning to manufacturing, are inseparable from the support of digital design and manufacturing technology. Therefore, graduates with this professional background can utilize their professional skills in a variety of positions such as design, manufacturing, research and development.
3, innovation and research and development: with the continuous development of science and technology, digital design and manufacturing technology is also constantly innovating. This provides graduates with a broad space for research and development and innovation. They can participate in the development of new technologies and products, and contribute to the technological innovation and product development of enterprises.
4, cross-border integration: digital design and manufacturing technology is not only the core driving force of the manufacturing industry, but also cross-border integration with other industries. For example, digital design and manufacturing technology also has a wide range of application prospects in the fields of healthcare, education and culture. This provides graduates with more employment options and career development opportunities.
The main skills covered in the digital design and manufacturing technology program:
1, basic theoretical knowledge: including drawing geometry, mechanical drawing, mechanical fundamentals, mechanical manufacturing fundamentals, etc., which are necessary courses to lay a solid foundation for subsequent professional learning.
2, CAD / CAM / CAE technology: learning to use a variety of design software such as AutoCAD, SolidWorks, etc., to master the application of CAD / CAM / CAE software skills, to be able to use these software for product design and drawing, as well as subsequent manufacturing process simulation and optimization.
3, CNC programming and operation: learning and mastering CNC programming and operation skills, including a variety of CNC machine tool processing principles and operating methods, to be able to use CNC machine tools for efficient and accurate processing.
4, 3D printing technology: learning the principles and applications of 3D printing technology, able to use 3D printers for product manufacturing, which is one of the very popular and cutting-edge technologies in the current manufacturing field.
5, product digital design and simulation: through learning and practice, be able to use digital tools for product design and simulation, predict the performance and behavior of the product, improve the design efficiency and quality.
6, industrial robot application technology: learn the operation, programming and maintenance of industrial robots to adapt to the needs of intelligent manufacturing and improve the level of production automation.