基于改进热源模型的铝合金MIG焊数值分析  被引量：2

作　　者：孙振邦[1,2] 刘乐乐 童嘉晖 韩永全[1,2] 陈芙蓉 SUN Zhenbang;LIU Lele;TONG Jiahui;HAN Yongquan;CHEN Furong(Inner Mongolia University of Technology,Hohhot,010051,China;Engineering Research Center of Development and Processing Protection of Advanced Light Metals,Ministry of Education,Hohhot,010051,China;Inner Mongolia North Heavy Industries Group Corp.Ltd.,Baotou,014033,China)

机构地区：[1]内蒙古工业大学,呼和浩特010051 [2]先进轻金属材料开发与加工防护教育部工程研究中心,呼和浩特010051 [3]内蒙古北方重工业集团有限公司,包头014033

出　　处：《焊接学报》2023年第2期111-116,128,I0009,I0010,共9页Transactions of The China Welding Institution

基　　金：内蒙古自治区自然科学基金博士基金资助项目(2021SHZR2300);内蒙古自治区科技计划资助项目(2020GG0313).

摘　　要：采用CMOS高速摄像机检测和分析铝合金熔化极气体保护焊(MIG焊)熔滴过渡行为,确定MIG焊熔滴的过渡频率和速度.在理论分析MIG焊热源特性、热作用模式以及焊缝形貌前提下,从宏观焊接热过程出发,提出并开发了适用于MIG焊的组合体积热源分布模式,MIG焊电弧被处理描述为经典的双椭球体热源模型,熔滴能量作用模式被表示成均匀球体热源模型.同时,在均匀球体热源模型中加入了熔滴热能和动能,实现了熔滴对MIG焊熔池冲击作用的影响.基于上述热源模型,建立了铝合金MIG焊温度场有限元模型,对厚板铝合金MIG焊温度场进行了模拟.结果表明,模拟获取的焊缝熔合线走势及形貌和实际焊接结果相吻合,证明开发的热源模型能够准确描述MIG焊指状熔深特性和热传导过程.CMOS high-speed camera was used to detect and analyze the transition behavior of aluminum alloy MIG welding droplets and to determine the transition frequency and speed of MIG droplets.Under the premise of theoretical analysis of MIG welding heat source characteristics,heat action mode and weld seam morphology,a combined volumetric heat source distribution model applicable to MIG welding was proposed and developed from the macroscopic welding thermal process.The MIG arc was treated and described as a classical double ellipsoidal heat source model,and the droplet energy action mode was represented as a uniform spherical heat source model.At the same time,the droplet thermal and kinetic energy are considered and added to the uniform sphere heat source model to realize the effect of droplet on the impact action of the MIG welding pool.Based on the above heat source model,a finite element model of the MIG welding temperature field of aluminum alloy was established.The temperature field of thick plate aluminum alloy MIG welding was simulated nu-merically. The results show that the trend and morphology ofthe weld fusion line obtained by simulation are in good agreementwith the actual welding results. It is proved that the developedheat source model considering droplet thermal and kineticenergy can accurately describe the finger penetration characteristicsand heat transfer process of MIG welding.

关 键 词：铝合金 热源模型 温度场 数值模拟 

分 类 号：TG456[金属学及工艺—焊接]