摘要
在盐溶液中 ,利用激光对 2 0 # 钢表面进行渗碳、渗硅和相变硬化相结合 ,实现了在对低碳钢表面化学渗碳、渗硅的同时 ,完成激光表面淬火处理。研究表明 ,2 0 # 钢在盐溶液中激光渗碳、渗硅后 ,可将材料表面的碳、硅含量增加 2倍 ;渗层具有一定厚度 ,主要由马氏体和贝氏体组成 ,试样表面的硬度提高到原试样的 2 5~ 3倍 ,耐磨性可达到处理前的 4~ 7 5倍。在浓度为 10 %的H2 SO4溶液中 ,静态腐蚀 2 4 0h后的实验表明 ,2 0 # 钢在经过激光渗硅化学热处理后 ,抗腐蚀能力可提高 4 0 %左右。
A new heat treatment method that combines carburizing or siliconizing with laser hardening treatment in the salt solution was adopted. Using this method, the laser hardening treatment can be carried out, during surface carburizing and surface siliconizing. Experimental result shows that after laser carburizing and laser siliconizing, the carbon and silicon content in the low carbon steel 20 # surface increases by twice as original steel. A hardening layer consisting mainly of martensite and bainite structure can be obtained, which surface hardness is 1.5~2 times harder than that of original sample. The wear resistance of laser carburizing and laser siliconizing samples is increased 4~7.5 times as original steel. The test of static corrosion in the 10% H 2SO 4 solution for 240 hours shows that the corrosion resistance of steel 20 # after laser siliconizing is about 40% larger than original steel.
出处
《中国激光》
EI
CAS
CSCD
北大核心
2003年第6期571-576,共6页
Chinese Journal of Lasers
基金
华中科技大学激光技术国家重点实验室基金项目
关键词
激光技术
低碳钢
盐溶液
激光化学热处理
显微结构
laser technique
low carbon steel
salt solution
laser chemical heat treatment
microstructure
