山东科学
山東科學
산동과학
SHANDONG SCIENCE
2012年
3期
92-94,112
,共4页
张新恩%周吉学%詹成伟%赵东清%李卫红%唐守秋%杨院生
張新恩%週吉學%詹成偉%趙東清%李衛紅%唐守鞦%楊院生
장신은%주길학%첨성위%조동청%리위홍%당수추%양원생
镁合金%氩弧焊接%组织%力学性能
鎂閤金%氬弧銲接%組織%力學性能
미합금%아호한접%조직%역학성능
magnesium alloys argon tungsten-arc welding microstructure mechanical properties
钨极氩弧焊(TIG)为镁合金焊接中最常用的一种焊接方法。本文采用直流钨极氩弧焊对6.0mm厚AZ31镁合金挤压板材进行了双面焊接实验。采用光学显微镜、扫描电镜、拉伸试验机考察分析了焊接接头显微组织与力学性能。显微组织分析表明,AZ31镁合金直流TIG焊接头由母材、热影响区、焊缝区组成,焊缝组织呈现焊丝熔化后凝固组织;在母材热影响区与焊缝区之间坡口处形成过渡区,晶粒细小,为母材与焊丝的熔合区。采用AZ31焊丝焊接接头平均抗拉强度为241.0MPa,延伸率为13.8%,分别达到了母材的86.0%和63.6%。焊接接头的断裂均位于热影响区,断口呈现韧脆混合断裂特征。
鎢極氬弧銲(TIG)為鎂閤金銲接中最常用的一種銲接方法。本文採用直流鎢極氬弧銲對6.0mm厚AZ31鎂閤金擠壓闆材進行瞭雙麵銲接實驗。採用光學顯微鏡、掃描電鏡、拉伸試驗機攷察分析瞭銲接接頭顯微組織與力學性能。顯微組織分析錶明,AZ31鎂閤金直流TIG銲接頭由母材、熱影響區、銲縫區組成,銲縫組織呈現銲絲鎔化後凝固組織;在母材熱影響區與銲縫區之間坡口處形成過渡區,晶粒細小,為母材與銲絲的鎔閤區。採用AZ31銲絲銲接接頭平均抗拉彊度為241.0MPa,延伸率為13.8%,分彆達到瞭母材的86.0%和63.6%。銲接接頭的斷裂均位于熱影響區,斷口呈現韌脆混閤斷裂特徵。
오겁아호한(TIG)위미합금한접중최상용적일충한접방법。본문채용직류오겁아호한대6.0mm후AZ31미합금제압판재진행료쌍면한접실험。채용광학현미경、소묘전경、랍신시험궤고찰분석료한접접두현미조직여역학성능。현미조직분석표명,AZ31미합금직류TIG한접두유모재、열영향구、한봉구조성,한봉조직정현한사용화후응고조직;재모재열영향구여한봉구지간파구처형성과도구,정립세소,위모재여한사적용합구。채용AZ31한사한접접두평균항랍강도위241.0MPa,연신솔위13.8%,분별체도료모재적86.0%화63.6%。한접접두적단렬균위우열영향구,단구정현인취혼합단렬특정。
Argon tungsten-arc welding (TIG) is the most popular welding method for magnesium alloys. AZ31 extruded plates with thickness of 6.0 mm were welded by DC-TIG welding. Microstructure and mechanical properties of welded joint of AZ31 magnesium alloy were studied by optical microscopy, scanning electron microscopy and tensile test machine. The microstructure analysis shows that the welded joint is composed of base material, heat affected zone and weld zone. A transition zone appears near the groove between the heat affected zone and the weld zone, whicb is the mix-fusion zone. The average tensile strength and the elongation of the welding joint is 24]. 0 MPa and 13.8% respectively, which arrives to 86.0% and 13.8% respectively of the base material. The fracture of welding joints is located in heat affected zone and the fracture surface presents mix fracture characteristics.