The Use of Lasser in Industrial Applications

Identify products manufactured using laser processing (cutting, welding, etc), and explain how to manufacture parts (2) before laser processing (4) used there uses laser. For this particular item (4), what are the advantages and disadvantages of using a laser instead of the previous process? Identify the company that manufactures the project, or run the above laser processing component. Please briefly explain the business of the company, centering on the laser business.

This article outlines the types of industrial lasers that can be used for soldering applications, then explains the range of current applications in the automotive industry and emphasizes areas where processing technology and equipment development will influence future laser welding To do. High power Nd: YAG laser currently supports 4 kW workpiece power using optical fiber beam transmission. Welding applications are focused on body-in-white assembly. With the advent of diode-pumped Nd: YAG lasers, the efficiency of Nd: YAG lasers may be improved.

There are types of lasers that can be used for the active medium (solid, liquid or gas), the type of gas used, the type of crystal used, and the operating mode (continuous wave, pulse, q switch). However, only a few lasers called material processing lasers are used in industrial applications. Lasers commonly used in the industry are CO 2 gas lasers, Nd - YAG - solid state lasers, excimer lasers. When the high energy laser beam is focused on the surface of the workpiece, the material is heated above its melting point. The molten or vaporized material is then removed by using a high pressure assist gas. Unlike other processes, LBM is a thermal process whose effect depends on the thermal properties of the material, not its mechanical properties. This is the main feature of LBM treatment of materials that are difficult to machine, such as titanium alloy and super nickel alloy, and brittle materials such as glass and ceramics.

ZrCoin is based on a new manufacturing process of zirconium dioxide (ZrO 2), a material used for various industrial applications due to high temperature and high pressure. Most of the zirconium used in the ceramics and nuclear industry is mined underground, just like other uses. This has a big impact on the environment. ZrCoin's team of scientists has developed a method to recover ZrO2 from waste in these industries. As a result, low cost, high quality, and more environment friendly