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Application
A wide range of varieties with robust stability to meet diverse industry application requirements.
Precision Machining
Laser precision machining utilizes a high-intensity laser beam, which is focused by an optical system to achieve a remarkably high power density. The workpiece is positioned near the focal point of the laser beam, and the desired thermal processing is accomplished through the relative motion between the laser beam and the workpiece. Laser beams can be precisely focused down to extremely small dimensions— for instance, in laser precision machining primarily targeting thin plates (0.1–1.0 mm), the typical machining accuracy usually falls within the tens-of-micron range. In certain specialized micro- and nanomanufacturing applications, it’s now possible to achieve even higher precision levels, down to the micrometer or even nanometer scale. For example, in the fabrication of microelectromechanical systems (MEMS), laser precision machining enables the creation of incredibly tiny mechanical structures and sensor components. Moreover, laser precision machining encompasses a wide variety of rapidly evolving processes, including drilling, cutting, welding, etching, and surface treatment.
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Sino-Galvo (Jiangsu) Technology Co., Ltd.
33 Hengtong Road, Dingmao Economic Development District, Zhenjiang, Jiangsu, China
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