球墨铸铁激光表面淬火微观组织演变研究

Huizhen Wang, Yuewen Zhai, Leyu Zhou, Zhenyu Fan, Zibo Zhang and Yuheng Zhan
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引用次数: 0

摘要

球墨铸铁以其优异的性能和低廉的成本被广泛应用于零部件和模具的制造。激光表面淬火可进一步提高其性能并延长其使用寿命。本文利用扫描电子显微镜、电子反向散射检测和显微硬度计系统分析了激光表面淬火球墨铸铁熔化区、硬化区和基体的显微组织演变。淬火区可分为两层:一层含有大量马氏体、石墨和少量残余奥氏体,另一层含有石墨、铁素体、层状马氏体+奥氏体+Fe3C的复合结构。在显微组织研究的基础上,形成了激光表面硬化区深度和工艺的确定与优化方法,为球墨铸铁激光表面硬化工艺的选择与优化提供了依据。
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Research on microstructure evolution of laser surface quenching of ductile cast iron
Ductile cast iron is widely used in the manufacturing of components and dies due to its excellent performance and low cost. Laser surface quenching can further improve its performance and extend its service life. This article uses scanning electron microscopy, electron backscattered scattering detection and microhardness tester to systematically analyse the microstructure evolution of the melted zone, hardened zone, and matrix of ductile cast iron with laser surface quenching. The hardening zone can be divided into two layers: one layer contains a large amount of martensite, graphite, and bits of residual austenite, and the other layer contains a composite structure of graphite, ferrite, layered martensite+austenite+Fe3C. On the basis of microstructure research, the determination and optimization methods of the depth of the laser surface hardening zone and the process are formed, providing a basis for the selection and optimization of the laser surface hardening process for ductile cast iron.
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