Evaluating the joinability of thin-walled high pressure die cast aluminium for automotive structures using self-piercing rivets

IF 3.8 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Advanced Joining Processes Pub Date : 2024-04-15 DOI:10.1016/j.jajp.2024.100222

Craig R. Carnegie, Aistis Grigas, Scott Taylor, Katie Bamber, Darren J. Hughes

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Abstract

This paper is the first to report successful application of self-pierce riveting (SPR) in thin-walled high pressure die cast (HPDC) aluminium for use in automotive applications. HPDC fabricated AA356x coupons were joined to conventional rolled RC5754 material. A set of industry-relevant joint stacks were created. Priority stacks included cast material as the upper layer. More challenging joints were also fabricated with cast material as the lower layer. Automotive industry key performance indicators were used to assess joint integrity. The key results and recommendations were:

•
HPDC aluminium was revealed to be able to be joined to rolled aluminium according to vehicle manufacturer automotive standards.
•
Process boundaries were established for satisfactory SPR joints across a range of material thicknesses and stack types.
•
SPR joint solutions were proven in the most challenging stacks with cast material as a bottom layer.
•
Greater variability in the joint key performance indicators was observed in stacks where the cast alloy is the top layer.
•
Microstructural analysis of both AA356x and RC5754 revealed differences in grain structure and hardness and it is proposed that this accounts for the increased variability.
•
Strength testing of lap shear joints demonstrated the mechanical effectiveness of an SPR joint including cast material. Under normal vehicle operating conditions, the performance of joints including cast material was equivalent to that of rolled material only joints. Following yielding, joints including cast material suffered a more brittle failure mode leading to differences in performance under crash scenarios.

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使用自冲铆钉评估汽车结构用薄壁高压压铸铝的可连接性

本文首次报道了自冲铆接（SPR）在薄壁高压压铸铝（HPDC）汽车应用中的成功应用。HPDC 制造的 AA356x 试样与传统的轧制 RC5754 材料进行了连接。创建了一套与行业相关的连接堆栈。优先堆叠包括作为上层的铸造材料。此外，还使用铸造材料作为下层，制作了更具挑战性的接头。汽车行业的关键性能指标被用来评估接头的完整性。主要结果和建议如下：-根据汽车制造商的汽车标准，HPDC 铝材可与轧制铝材连接。-在各种材料厚度和堆栈类型中，为令人满意的 SPR 连接确定了工艺界限。-对 AA356x 和 RC5754 进行的微观结构分析表明，两者在晶粒结构和硬度方面存在差异，这也是造成差异增大的原因。在车辆正常运行条件下，包括铸件材料在内的接头性能与仅使用轧制材料的接头相当。在屈服后，包括铸件材料在内的接头会出现更脆的失效模式，从而导致碰撞情况下的性能差异。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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