激光淬火技术 一、原理与应用 激光淬火技术(laser Quenching),是利用聚 焦后的激光束照射到钢铁材料表面,使其温度 迅速升高到相变点以上,当激光移开后,由于 仍处于低温的内层材料的快速导热作...
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laser-quenching 激光淬火
dye-laser quenching 染料激光器犴灭
YAG laser quenching YAG激光淬火
broad beam laser quenching 激光淬火
wide laser quenching 宽带激光淬火
mould laser quenching 模具激光淬火
helix laser quenching 螺旋激光淬火
nitriding-laser quenching 渗氮激光相变硬化
laser quenching substrate 激光淬火基体
Hardened depth is a Laser quenching characteristic and quality parameter.
激光淬火硬化层深度是激光热处理的一项综合性能指标,也是衡量激光淬火质量的主要因素。
参考来源 - 齿轮激光表面处理的若干关键技术研究The history, application and present processing situation of laser are introduced at first. We studied the effect of laser quenching (harden by phase transformation) on some representative mould steels.
本文在介绍激光淬火之前,首先介绍了激光的发展、应用以及激光加工的现状。
参考来源 - 模具钢激光表面热处理的实验研究·2,447,543篇论文数据,部分数据来源于NoteExpress
Laser quenching of U74 steel and its effect on the wear resistance are studied.
本文研究了U 74钢轨表面激光淬火工艺及其对表面耐磨性能的影响。
The results show that the fracture toughness of Cr-coatings is improved by laser quenching substrate.
结果表明,激光淬火处理基体可以提高镀铬层的断裂韧性。
There is not standard about the available hardened depth of laser quenching gears, which is disadvantage to its application.
齿轮激光淬火有效硬化层深的取值到目前为止没有统一的标准,这对该项技术的推广应用十分不利。
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