采用激光-MIC复合焊对10mm厚的AZ31B变形镁合金进行焊接.利用光学显微镜、扫描电镜、X射线衍射仪等手段分析了焊接接头的外观和截面特征、显微组织、元素分布、焊缝物相和断口形貌等,并检测了接头区域硬度和接头强度.试验结果表明:采用激光-MIG复合焊能获得成形美观的焊缝,无明显的缺陷;焊缝热影响最大宽度位于激光区,约为100μm,焊缝组织为15~25μm的等轴晶粒;相比于母材,焊缝区的镁元素出现烧损,铝和锰元素的比例有一定增加;焊缝区主要为Mg,Al和少量的MgO相.焊接接头硬度值较均匀;焊缝抗拉强度达到222MPa,断口形貌为混合断裂断口.
参考文献
| [1] | Robert E. "Bob" Brown .Magnesium Alloys and Their Applications[J].Light Metal Age,2001(5/6):54-56. |
| [2] | T.Asahina;H.Tokisue .Solidification crack sensitivity of TIG welded AZ31 magnesium alloy[J].軽金属,1999(12):595-599. |
| [3] | WEISHEIT A;GALUN R;MORDIKE B L .CO2 laser beam welding of magnesium-based alloys[J].Welding Research Supplement,1998,4:149-154. |
| [4] | 张华,林三宝,吴林,冯吉才,郭和平.镁合金AZ31搅拌摩擦焊接头的微观组织[J].中国有色金属学报,2003(06):1510-1513. |
| [5] | 宋刚,刘黎明,王继锋,周继扬.激光-TIG复合焊接镁合金AZ31B焊接工艺[J].焊接学报,2004(03):31-34. |
| [6] | STUN W M .Arc augmented laser processing of materials[J].Journal of Applied Physics,1980,51(11):5636-5641. |
| [7] | BAGGER C;OLSEN F O .Review of Laser hyhrid welding[J].Journal of Laser Applications,2005,1(17):2-14. |
| [8] | STEEN W M;EBOO M .Laser Material Processing[J].Metal Construction,1979,11(06):332-335. |
| [9] | 雷振,秦国梁,林尚扬.激光与MIG/MAG复合热源焊接工艺发展概况[J].焊接,2005(09):9-13. |
| [10] | STEEN W M .Are augmented laser welding[J].Metal Construction,1979,21(07):5636-5641. |
| [11] | DIEBOLD T P;ALBRIGHT C E .Laser-GTA welding of aluminum alloy 5052[J].Welding Journal,1984,63(06):18-24. |
| [12] | Z. Sun;D. Pan;J. Wei .Comparative evaluation of tungsten inert gas and laser welding of AZ31 magnesium alloy[J].Science and Technology of Welding and Joining,2002(6):343-351. |
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