PWHT对AA2024铝合金激光束焊接接头强度影响的研究

ASME Open Journal of Engineering Pub Date : 2022-01-01 DOI:10.1115/1.4053496

C. Rajendran, R. Ben Ruben, P. Ashokavarthanan, K. Mallieswaran

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引用次数: 1

摘要

耐腐蚀性能和强度重量比是影响高强度铝合金性能的主要因素。因此，AA2024合金是关键结构制造行业的潜在候选材料。传统的连接方法对铝合金焊接是无效的。较高的熔点和温度变化导致合金隔离;气孔和热裂是由熔点变化引起的。因此，采用光热源激光束来制造接头。大多数熔焊接头的弱区是热影响区(HAZ)。在热影响区进行焊后热处理以改善其性能。实验结果表明，固溶处理和人工时效焊接接头的最大抗拉强度为358 MPa。沉淀可能在热影响区发生再沉淀。

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Identifying the Effect of PWHT on Strength of Laser Beam Welding Joints of AA2024 Aluminum Alloy

The corrosion-resistant and strength-to-weight ratios are the primary factors in high-strength aluminum alloy. Hence, the AA2024 alloy is a possible candidate in the critical structural fabrication industry. The traditional joining method is ineffective for welding aluminum alloys. Higher melting point and temperature variations cause alloy isolation; porosity and hot cracking are caused by melting point variations. As a result, to fabricate joints, a light heat source laser beam was used. The weaker area of most fusion-welded joints was the heat-affected zone (HAZ). The post-weld heat treatment was used at HAZ to improve the properties. According to the experimental findings, the joint welded with solution treatment and artificial aging had a maximum tensile strength of 358 MPa. Re-precipitation of precipitates may accomplish in HAZ.

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ASME Open Journal of Engineering

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