1:大连长丰实业总公司
2:中国矿业大学机电工程学院
摘要(Abstract):
30CrMnSiA+20A复合材料组合的凸点焊是飞机双耳螺桩连接的重要工艺,在飞机极端服役条件下,对异质连接接头的界面结构及性能提出了极高的要求。为此,对(30CrMnSiA+20A)复合材料组合进行凸点焊,并对焊接头的宏观金相组织、各微区显微组织、显微硬度分布、常温拉伸性能和拉伸断口形貌进行了观察,综合分析了(30CrMnSiA+20A)组合凸点焊接头的界面结构及性能。结果表明,焊接头不同区域显微组织存在显著差异:熔核区主要为弥散分布的板条马氏体与小块状铁素体,半熔化区以铁素体和马氏体为主且因局部熔化与快速冷却呈不均匀形态,热影响区则体现成分依赖性,30CrMnSiA侧为板条马氏体与少量残余奥氏体,20A侧为单一铁素体;接头中心显微硬度最高出现在熔核区(457~536HV),随距中心距离增大先降至1.5~2.0 mm处的438 HV左右,后回升并稳定,其中20A母材区硬度稳定在140 HV左右。接头抗拉强度与延伸率平均值分别为625.5 MPa、6.69%,断裂均发生于20A侧半熔化区,结合SEM断口分析可知,断裂模式为韧脆混合型,反映出半熔化区组织状态对断裂行为的显著调控作用。
关键词(KeyWords): 30CrMnSiA+20A;异种材料;凸点焊;界面结构;性能;分析
基金项目(Foundation): 辽宁省科技重大专项(2025080024-JH1/117);; 大连市优青项目(2023RY014)~~
作者(Author): 张义文,陈泷,耿佳业,晁耀杰,田兵,张季童
DOI: 10.26935/j.issn.2097-5317.2025.0028
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