摘要
采用聚焦光束重熔预涂单质Cr粉的方法对灰铸铁进行了表面改性处理 ,用SEM ,EDS ,X ray等分析了合金化层的微观组织特点及其物相组成 ,用环块摩擦试验测试了合金化层的耐磨性能。试验结果表明 ,聚焦光束重熔Cr粉合金化层的耐磨性较灰铸铁基体明显提高 ,合金化层的耐磨性随着Cr粉预涂量的增加而提高 ,表面磨损机制由犁沟和划伤转变为表面塑性变形。其原因在于 ,随Cr粉预涂量的增加 ,合金化层微观组织中的富铁α (Fe,Cr) +Cr7C3 共晶体基底依次被富铁的α (Fe ,Cr) +Cr2 3 C6共晶体和富铬的α (Fe ,Cr)
The grey cast iron was alloyed by light beam remelting the preplacing layer of Cr powder. The microstructure and phase of alloying layers were analyzed by SEM,EDS and X ray diffraction. The ring block wear test was use to evaluate the wear resistance of alloying layers. The results show that the wear resistance of Cr powder alloying layer is greatly higher than that of grey cast iron. The wear resistance is heightened with the increases of preplacing mass of Cr powder,and the wear mechanism changes from furrow and scratch to surface plastic deformation. The reason is that with the increases of preplacing mass of Cr powder,the eutectic matrix of α (Fe,Cr) rich in Fe+Cr 7C 3 in alloying layer is replaced by the eutectic of α (Fe,Cr) rich in Fe+Cr 23 C 6,then replaced by α (Fe,Cr) ferrite rich in Cr.
出处
《激光技术》
CAS
CSCD
北大核心
2004年第1期1-4,共4页
Laser Technology
基金
国家自然科学基金资助项目 (5 0 2 75 0 82 )
关键词
光束合金化
耐磨性
耐磨机制
微观组织
铸铁
light beam alloying
wear resistance
wear mechanism
microstructure
cast iron
