中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2014年
2期
293-301
,共9页
朱东晖%陈江华%刘春辉%黄昌军%王时豪%陈敬%顾媛
硃東暉%陳江華%劉春輝%黃昌軍%王時豪%陳敬%顧媛
주동휘%진강화%류춘휘%황창군%왕시호%진경%고원
铝合金%焊接%热影响区%力学性能%微观结构%析出相
鋁閤金%銲接%熱影響區%力學性能%微觀結構%析齣相
려합금%한접%열영향구%역학성능%미관결구%석출상
aluminum alloy%weld%heat affected zone%mechanical properties%microstructure%precipitate
通过硬度测试、拉伸试验以及疲劳试验对Al-Mg-Si (T5)与Al-Zn-Mg (T4)异质焊接件的力学性能进行了测试,并通过扫描电镜(SEM),背散射电子衍射技术(EBSD),能谱仪(EDS)以及透射电镜(TEM)对焊接接头的微观结构进行观察。结果表明:异质焊接件出现了明显的软化区,在焊接热循环作用下,该区经过类似过时效处理,出现了粗大的β′相和U2相,导致其强度远远小于两母材的强度,并且拉伸断裂发生于软化区。疲劳试验结果显示,疲劳断裂发生于Al-Mg-Si母材一侧的熔合线处。这是由于Al-Mg-Si母材一侧的熔合区强度低,并且存在大量脆性尖锐的富硅相,在循环载荷作用下容易萌生疲劳裂纹。
通過硬度測試、拉伸試驗以及疲勞試驗對Al-Mg-Si (T5)與Al-Zn-Mg (T4)異質銲接件的力學性能進行瞭測試,併通過掃描電鏡(SEM),揹散射電子衍射技術(EBSD),能譜儀(EDS)以及透射電鏡(TEM)對銲接接頭的微觀結構進行觀察。結果錶明:異質銲接件齣現瞭明顯的軟化區,在銲接熱循環作用下,該區經過類似過時效處理,齣現瞭粗大的β′相和U2相,導緻其彊度遠遠小于兩母材的彊度,併且拉伸斷裂髮生于軟化區。疲勞試驗結果顯示,疲勞斷裂髮生于Al-Mg-Si母材一側的鎔閤線處。這是由于Al-Mg-Si母材一側的鎔閤區彊度低,併且存在大量脆性尖銳的富硅相,在循環載荷作用下容易萌生疲勞裂紋。
통과경도측시、랍신시험이급피로시험대Al-Mg-Si (T5)여Al-Zn-Mg (T4)이질한접건적역학성능진행료측시,병통과소묘전경(SEM),배산사전자연사기술(EBSD),능보의(EDS)이급투사전경(TEM)대한접접두적미관결구진행관찰。결과표명:이질한접건출현료명현적연화구,재한접열순배작용하,해구경과유사과시효처리,출현료조대적β′상화U2상,도치기강도원원소우량모재적강도,병차랍신단렬발생우연화구。피로시험결과현시,피로단렬발생우Al-Mg-Si모재일측적용합선처。저시유우Al-Mg-Si모재일측적용합구강도저,병차존재대량취성첨예적부규상,재순배재하작용하용역맹생피로렬문。
The mechanical properties of an Al-Mg-Si-T5 and Al-Zn-Mg-T4 dissimilar weld joint were tested through hardness test, tensile test and fatigue test, and the microstructure was investigated by scanning electron microcopy (SEM), backscattered-electron diffraction (EBSD), energy dispersive spectrometer (EDS) and transmission electron microscopy (TEM). The results show that a softened zone, which seems to experience an over-aged treatment because of the weld heat, appears in the dissimilar weld joint. And the tensile test specimen fails in the softened zone, where coarseβ′phase and U2 phase exist. It is found that the fatigue testing specimen fractures approximately at the fusion line, which is near the heat affected zone of Al-Mg-Si base metal. The combined effect of the brittle Si-rich particles and the low strength leads to the fatigue crack initiation at this place.
