摘要
采用5CrNiMo热锻模具钢作为研究对象,分析了堆焊试样上的裂纹形貌,测定了堆焊残余应力场并进行了数值模拟,在此基础上,分析了稀土氧化物改善堆焊金属结晶组织和变质夹杂物的作用。结果表明:堆焊裂纹主要在粗大的树枝晶之间、夹杂物和热影响区粗大奥氏体晶粒处形成,并且,在堆焊金属中心和热影响区残余拉应力作用下扩展。堆焊金属中加入稀土氧化物能细化一次柱状晶组织;变质夹杂物。同时,降低堆焊金属马氏体相变温度,从而降低上述危险部位的拉应力峰值。
The crack morphology of the hardfacing specimens taken from steel 5CrNiMo was observed. Meanwhile, the residual stress fields were measured and simulated. Based on the experiment mentioned above, the improved structure and modified inclusion in hardfacing metal with rare earths (RE) oxide were analyzed. The results show that the initiated from the coarse dendritic crystal grains, the inclusions and coarse austenite grains in the HAZ.center of the hardfacing by residual stress exist in the metal and HAZ. The primary columnar grain structure can be refined by oxide in the coat of the electrode. The incl hard facing adding RE usion in the metal can be improved, too. Meanwhile, if the martensite transformation temperature is decreased, the largest value of the residual tensile stress in the dangerous region can be reduced.
出处
《中国稀土学报》
CAS
CSCD
北大核心
2006年第6期721-728,共8页
Journal of the Chinese Society of Rare Earths
基金
河北省攻关项目(04212201D)
教育部回国留学基金资助
关键词
绿色再制造
热锻模具
中高碳钢
堆焊金属
稀土氧化物
green remanufacture
hot forged die
medium-high carbon steel
hardfaeing materials
rare earth oxides
