{"title":"通过电阻点焊连接铝压铸件和锻造铝件","authors":"Maike Epperlein, Alexander Schiebahn, Uwe Reisgen","doi":"10.1177/14644207241236388","DOIUrl":null,"url":null,"abstract":"Resistance spot welding (RSW) is an economic, robust welding process, which is easy to automate and widely used in automotive industry. In this work, the resistance spot weldability of die-cast aluminum alloys EN AC-AlSi7MnMg, EN AC-AlSi9Mn and EN AC-AlSi10MnMg-T6/T7 to wrought aluminum alloy EN AW-AlSi1MnMg-T6 is investigated when applying the standard welding profile as recommended in VDA 238-401 considering main challenges in welding aluminum die castings, for example, porosity and inhomogenities. Weldability is best for EN AC-AlSi10MnMg-T6/T7, but the results show limited applicability of VDA 238-401 in general, especially for high total sheet thicknesses, because of invalid electrode force favouring spatter formation and weld spot irregularites. Still, all spot welds between die castings and 2 mm wrought aluminum sheets reach the recommended shear tension forces for spot diameter d<jats:sub>w</jats:sub> of 5·√t (2 mm: 5.95 kN; 3 mm: 8.96 kN; according to DIN EN ISO 18595), although being afflicted with solidification porosity and liquation cracking. Gas porosity is not observed and solidification porosity is only found to be significant for weld spot failure when being located close to the joining level, which is observed at welding depths of approximately 50% into the wrought aluminum sheet. Here, a failure path across the nugget is found. Weld porosity apart from the joining level is less significant and failure path is found along the fusion line between nugget and wrought aluminum. Instead, hardness difference between nugget and HAZ is the main reason for weld spot failure. Although the applied welding current profile is not suited best for RSW of mixed joints between aluminium die castings and wrought aluminium alloys, the results confirm its potential, for example, a significantly reduced gas porosity compared to applied fusion welding processes.","PeriodicalId":20630,"journal":{"name":"Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications","volume":"52 1","pages":""},"PeriodicalIF":2.5000,"publicationDate":"2024-03-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Joining aluminum die castings and wrought aluminum by resistance spot welding\",\"authors\":\"Maike Epperlein, Alexander Schiebahn, Uwe Reisgen\",\"doi\":\"10.1177/14644207241236388\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Resistance spot welding (RSW) is an economic, robust welding process, which is easy to automate and widely used in automotive industry. In this work, the resistance spot weldability of die-cast aluminum alloys EN AC-AlSi7MnMg, EN AC-AlSi9Mn and EN AC-AlSi10MnMg-T6/T7 to wrought aluminum alloy EN AW-AlSi1MnMg-T6 is investigated when applying the standard welding profile as recommended in VDA 238-401 considering main challenges in welding aluminum die castings, for example, porosity and inhomogenities. Weldability is best for EN AC-AlSi10MnMg-T6/T7, but the results show limited applicability of VDA 238-401 in general, especially for high total sheet thicknesses, because of invalid electrode force favouring spatter formation and weld spot irregularites. Still, all spot welds between die castings and 2 mm wrought aluminum sheets reach the recommended shear tension forces for spot diameter d<jats:sub>w</jats:sub> of 5·√t (2 mm: 5.95 kN; 3 mm: 8.96 kN; according to DIN EN ISO 18595), although being afflicted with solidification porosity and liquation cracking. Gas porosity is not observed and solidification porosity is only found to be significant for weld spot failure when being located close to the joining level, which is observed at welding depths of approximately 50% into the wrought aluminum sheet. Here, a failure path across the nugget is found. Weld porosity apart from the joining level is less significant and failure path is found along the fusion line between nugget and wrought aluminum. Instead, hardness difference between nugget and HAZ is the main reason for weld spot failure. 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引用次数: 0
摘要
电阻点焊(RSW)是一种经济、坚固的焊接工艺,易于实现自动化,在汽车行业得到广泛应用。在这项工作中,考虑到焊接铝压铸件的主要挑战,如气孔和不均匀性,研究了压铸铝合金 EN AC-AlSi7MnMg、EN AC-AlSi9Mn 和 EN AC-AlSi10MnMg-T6/T7 与锻造铝合金 EN AW-AlSi1MnMg-T6 在采用 VDA 238-401 推荐的标准焊接轮廓时的电阻点焊性。EN AC-AlSi10MnMg-T6/T7 的焊接性最好,但结果表明 VDA 238-401 的适用性一般有限,特别是对于总厚度较高的板材,因为无效的电极力有利于飞溅的形成和焊点的不规则性。尽管如此,压铸件和 2 毫米锻造铝板之间的所有点焊都达到了点直径 dw 为 5-√t 的推荐剪切拉力(2 毫米:5.95 kN;3 毫米:8.96 kN;根据 DIN EN ISO 18595),尽管存在凝固气孔和液化裂纹。气体气孔未被观察到,凝固气孔仅在靠近焊接层时对焊点失效有显著影响,这在锻造铝板的焊接深度约为 50%时被观察到。在这种情况下,会发现一条横穿金块的失效路径。接合面以外的焊缝气孔不太明显,失效路径沿着铝块和锻造铝板之间的熔合线。金块和热影响区之间的硬度差异反而是焊点失效的主要原因。虽然应用的焊接电流曲线并不最适合铝压铸件和锻铝合金混合接头的 RSW,但结果证实了其潜力,例如,与应用的熔焊工艺相比,气体气孔率明显降低。
Joining aluminum die castings and wrought aluminum by resistance spot welding
Resistance spot welding (RSW) is an economic, robust welding process, which is easy to automate and widely used in automotive industry. In this work, the resistance spot weldability of die-cast aluminum alloys EN AC-AlSi7MnMg, EN AC-AlSi9Mn and EN AC-AlSi10MnMg-T6/T7 to wrought aluminum alloy EN AW-AlSi1MnMg-T6 is investigated when applying the standard welding profile as recommended in VDA 238-401 considering main challenges in welding aluminum die castings, for example, porosity and inhomogenities. Weldability is best for EN AC-AlSi10MnMg-T6/T7, but the results show limited applicability of VDA 238-401 in general, especially for high total sheet thicknesses, because of invalid electrode force favouring spatter formation and weld spot irregularites. Still, all spot welds between die castings and 2 mm wrought aluminum sheets reach the recommended shear tension forces for spot diameter dw of 5·√t (2 mm: 5.95 kN; 3 mm: 8.96 kN; according to DIN EN ISO 18595), although being afflicted with solidification porosity and liquation cracking. Gas porosity is not observed and solidification porosity is only found to be significant for weld spot failure when being located close to the joining level, which is observed at welding depths of approximately 50% into the wrought aluminum sheet. Here, a failure path across the nugget is found. Weld porosity apart from the joining level is less significant and failure path is found along the fusion line between nugget and wrought aluminum. Instead, hardness difference between nugget and HAZ is the main reason for weld spot failure. Although the applied welding current profile is not suited best for RSW of mixed joints between aluminium die castings and wrought aluminium alloys, the results confirm its potential, for example, a significantly reduced gas porosity compared to applied fusion welding processes.
期刊介绍:
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