微细电火花加工中的放电能量分布研究  

作　　者：姜东升 刘庆玉 陈志恒 姜芙林 JIANG Dongsheng;LIU Qingyu;CHEN Zhiheng;JIANG Fulin(School of Mechanical and Automotive Engineering,Qingdao University of Technology,Qingdao 266525,China;Qingdao Huada Zhizaojichuang Technology Co.Ltd.,Qingdao 266500,China)

机构地区：[1]青岛理工大学机械与汽车工程学院,青岛266525 [2]青岛华大智造极创科技有限公司,青岛266500

出　　处：《青岛理工大学学报》2024年第4期139-145,共7页Journal of Qingdao University of Technology

基　　金：山东省自然科学基金资助项目(ZR2022ME081);高等学校学科创新引智计划资助项目(D21017);工业流体节能与污染控制教育部重点实验室开放基金资助项目(2022-JXGCKFKT-YB-07)。

摘　　要：微细电火花加工技术已经广泛应用于精密制造领域,然而由于尺度效应的存在,其加工机理特别复杂,对于放电蚀除过程中的放电能量分布尚未明确。开展了微细电火花单脉冲放电实验,并考虑到熔化潜热和汽化潜热的影响,对传统的电热模型进行了修正,基于微细电火花的放电持续时间,计算了分布到工件中的能量分布比。结果发现,由于放电初期有相当一部分的放电能消耗于放电通道的形成,所以传入工件中的能量分数随着放电持续时间的增加而增大,在放电持续时间0.63~20.5μs时,分布到工件上的放电能量分数为7.1%~16.3%。伴随着放电持续时间的持续增加放电等离子体通道半径将会一定程度增大,放电等离子体通道半径随放电持续时间的变化范围是5.9~23.2μm。Micro EDM technology has been widely used in the field of precision manufacturing.However,due to the existence of scale effect,its machining mechanism is particularly complex.The distribution of discharge energy during the EDM process has not been clarified.The micro single pulse electrical discharge experiment was carried out,and the traditional electrical heating model was modified considering the influence of the melting latent heat and the vaporization latent heat.Based on the discharge duration of the micro EDM,the energy ratio distributed to the workpiece was calculated.The results show that the energy fraction distributed to the workpiece increases with the increase of the discharge duration because a considerable part of the discharge energy is consumed by the formation of the discharge channel at the initial stage of spark discharge.When the discharge duration is 0.63—20.5μs,the discharge energy fraction distributed to the workpiece is 7.1%—16.3%.With the continuous increase of the discharge duration,the discharge plasma channel radius would increase to a certain extent,and the variation range of the discharge plasma channel radius with the discharge duration is 5.9—23.2μm。

关 键 词：微细电火花加工 能量分布 放电等离子体通道半径 放电持续时间 

分 类 号：TG661[金属学及工艺—金属切削加工及机床]