应用激光
應用激光
응용격광
APPLIED LASER
2009年
6期
476-480
,共5页
陈铠%杨博%杨武雄%肖荣诗
陳鎧%楊博%楊武雄%肖榮詩
진개%양박%양무웅%초영시
铸造镁合金%激光焊接%气孔率%缩松率%填充率
鑄造鎂閤金%激光銲接%氣孔率%縮鬆率%填充率
주조미합금%격광한접%기공솔%축송솔%전충솔
cast magnesium alloy%laser welding%pore rate%shrinkage porosity rate%filler rate
针对铸造镁合金的激光焊接气孔难题,以AZ91D铸造镁合金为主要材料,紧密围绕气孔产生的原因、影响因素及其控制开展研究.探讨了铸造镁合金激光焊接气孔产生的特点和机理;研究了自熔激光焊接气孔产生的原因及影响因素;研究了填充焊丝激光焊接对焊缝气孔的控制及不同对接间隙焊接的质量控制.研究结果表明:铸造镁合金的激光焊接稳定性和气孔率主要受母材微孔率影响.对于母材微孔率在1-3%的铸造镁合金,采用填充焊丝激光焊接技术,焊缝平均气孔率降低到0.31%;对于母材微孔率在6-10%的铸造镁合金,采用填充焊丝激光焊接技术,使焊缝平均气孔率由20%降低到3%,对接间隙0.4mm时可以进行正常的焊接.
針對鑄造鎂閤金的激光銲接氣孔難題,以AZ91D鑄造鎂閤金為主要材料,緊密圍繞氣孔產生的原因、影響因素及其控製開展研究.探討瞭鑄造鎂閤金激光銲接氣孔產生的特點和機理;研究瞭自鎔激光銲接氣孔產生的原因及影響因素;研究瞭填充銲絲激光銲接對銲縫氣孔的控製及不同對接間隙銲接的質量控製.研究結果錶明:鑄造鎂閤金的激光銲接穩定性和氣孔率主要受母材微孔率影響.對于母材微孔率在1-3%的鑄造鎂閤金,採用填充銲絲激光銲接技術,銲縫平均氣孔率降低到0.31%;對于母材微孔率在6-10%的鑄造鎂閤金,採用填充銲絲激光銲接技術,使銲縫平均氣孔率由20%降低到3%,對接間隙0.4mm時可以進行正常的銲接.
침대주조미합금적격광한접기공난제,이AZ91D주조미합금위주요재료,긴밀위요기공산생적원인、영향인소급기공제개전연구.탐토료주조미합금격광한접기공산생적특점화궤리;연구료자용격광한접기공산생적원인급영향인소;연구료전충한사격광한접대한봉기공적공제급불동대접간극한접적질량공제.연구결과표명:주조미합금적격광한접은정성화기공솔주요수모재미공솔영향.대우모재미공솔재1-3%적주조미합금,채용전충한사격광한접기술,한봉평균기공솔강저도0.31%;대우모재미공솔재6-10%적주조미합금,채용전충한사격광한접기술,사한봉평균기공솔유20%강저도3%,대접간극0.4mm시가이진행정상적한접.
Abstract The studies focused to pores of cast magnesium alloy and aimed to the causations of it, the influence and the control factors to it in laser welding process were carried out with the material of AZ91D. The characteristics on the pores caused in laser welding of cast magnesium alloy were discussed. The reasons of the pores caused and the influences on it were searched. Filler wire technique was employed in laser butt joint, with different gaps, of cast magnesium alloy and the control for the pores and welding quality of cast magnesium alloy was achieved. The results showed that the stability and the pore rate of cast magnesium alloy in laser welding were affected mainly by the pore rate in substrate alloy. For the cast magnesium alloy with the rate of 1-3%, when filler wire technique was adopted the pore rate was from 1.5% down to 0.31%. For the cast magnesium alloy with the rate of 6-10%, in same way, the pore rate was from 20% down to 3%. The normal laser welding process could be had in this case.