Laser processing is the most common application for laser systems. According to the mechanism of laser beam interaction with materials, laser processing can be roughly divided into two types: laser thermal processing and photochemical reaction processing. Laser thermal processing refers to the use of the thermal effect generated by the laser beam projected onto the surface of the material to complete the processing, including laser welding, laser cutting, surface modification, laser marking, laser drilling and micro-machining; photochemical reaction processing refers to laser beam Irradiation to an object, using high-density, high-energy photons to initiate or control the photochemical reaction process. Including photochemical deposition, stereolithography, laser etching, and the like. Because lasers have four characteristics of high brightness, high directivity, high monochromaticity, and high coherence, laser processing has properties that are not available in other processing methods. Because it is non-contact processing, there is no direct impact on the workpiece, so there is no mechanical deformation; there is no "tool" wear during laser processing, no "cutting force" acts on the workpiece; during laser processing, the laser beam has high energy density and processing speed Fast, and local processing, no or minimal impact on non-laser irradiation. Therefore, the thermal deformation of the small workpiece in the heat-affected zone is small and the subsequent processing is minimal; since the laser beam is easy to guide, focus, and realize the direction change, it is easy to cooperate with the numerical control system to process the complex workpiece. Therefore, it is an extremely flexible processing method with high production efficiency, stable and reliable processing quality, and good economic and social benefits. As an advanced manufacturing technology, laser processing has been widely used in important sectors of the national economy such as petroleum, chemical, electric power, coal, automobile, electronics, electrical appliances, aviation, metallurgy, machinery manufacturing, etc., to improve product quality, labor productivity, automation, pollution-free, and reduction. Material consumption and the like play an increasingly important role. Recessed light, also known as can lights or downlights, are popular lighting fixtures that are installed directly into the ceiling or wall, creating a sleek and seamless look. The Led Wafer Light is designed to be recessed, meaning they are set into the surface, leaving the light source hidden and projecting a focused beam of light downwards or outwards. Recessed lights offer a range of benefits, including enhanced aesthetics, versatile lighting options, and the ability to provide both ambient and task lighting in various settings. Recessed Light,Led Can Lights,Rgb Panel Light,Cob Down Light WOSEN LIGHTING TECHNOLOGY LIMITED , https://www.wosenled.com
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