摘要
本文建立了以热电偶为温度传感器的激光焊接热循环检测系统,利用2mm低碳钢板和1.6mm超细晶粒钢研究了 CO_2激光深熔焊的热循环特点。结果发现,激光焊的最大加热速度可达 90000℃/S.最小t_(8/5)为 0.13s。同时研究了激光焊接超细晶粒钢时热循环对热影响区尺寸和接头组织性能的影响。
A set of computerized system with thermal couples to measure the thermal cycle during penetration laser beam welding has been developed. The thermal -cycle cruve and the heating-and-cooling cruve can be obtained in time during laser welding. By using the system, the characteristics of thermal cycle in CO_2 laser welding were investigated with 2mm mild steel plate and 1. 6mm super -fine-grain steel plate. It shows that the maximum of heating rate is about 90000 ℃/s,and the minimum of t_(8/5) is about 0.13s in laser beam welding. The effect of the thermal cycle on the HAZ size and the mechanical properties of the joint of super-fine-grain steel has also been studied.
出处
《应用激光》
CSCD
北大核心
1999年第5期272-274,278,共4页
Applied Laser
基金
国家重点基础研究发展规划资助项目
关键词
激光焊接
热循环
接头
力学性能
CO2激光
laser beam welding ,thermal cycle, heat affected zone, super-fine-grain, steel mechanical property
