Conventional processing equipment is the backbone of all manufacturing processes that can be used to produce a wide variety of parts in a wide range of engineering applications. In Particular, the short-term goal of CAME is to produce parts for electric vehicles and agricultural machinery that conventional processing equipment is essential, and the Comprehensive education should be accompanied by three years after the start of the program. Five basic manufacturing engineering R&D systems are to be equipped in CAME: a laboratory for casting and toxic machining, general machining, advanced characterization analysis, rapid prototyping, and modeling and simulation.
This lab is equipped with advanced extrusion, electron beam welding, and various metals casting-related equipment to transfer advanced casting and welding technologies to local industries for the domestic production of electric cars and agricultural machinery parts. Various activities such as research of new technology, training of experts, and contracted training for industries are to be done in this lab.
This laboratory is to be used to develop new technologies related to drilling, milling, cutting, lathe, gear processing, etc. necessary for the domestic production of parts for electric vehicles and agricultural machinery. Various activities such as research on new technology, training of experts, and contracted training for local industries to develop metal and plastic forming technology are to be done in this lab.
This lab aims to analyze the quality and characteristics of basic materials for the production of various parts and to analyze the quality of metal and plastic parts produced by the latest processing methods. The lab should be equipped with testing machines such as metal plate testing machines, UTM, X-ray surface roughness analyzer, and various electron microscopes. The function of this lab is to include but not limited to the analysis of metals, plastics, and ceramics and academic activities using the advanced material analysis equipment, and training of
experts and contracted educational activities for local industries.
This lab is to be used for transferring various prototyping technologies required for the domestic design of parts for electric vehicles and agricultural equipment. Related equipment such as 3D printers and various optical analyzers are to be installed. Various activities such as new material research, expert training, and industry-commissioned education should be carried out to develop prototyping technology suitable for local needs.
The laboratory is to be equipped with equipment such as a computer server, FEM, CAD, and multi-physics software. Education of design and analysis software necessary for local production of parts for electric vehicles and agricultural machinery should be done in this lab.- 136 -Various activities such as basic design, tolerance, modeling, and related technology development and education should be carried out.
This laboratory is to be used to develop new technologies related to drilling, milling, cutting, lathe, gear processing, etc. necessary for the domestic production of parts for electric vehicles and agricultural machinery. Various activities such as research on new technology, training of experts, and contracted training for local industries to develop metal and plastic forming technology are to be done in this lab.
