材料科学
焊接
脉冲持续时间
铝
激光器
热导率
激光束焊接
脉搏(音乐)
合金
铝合金
实验设计
热影响区
渗透(战争)
热的
复合材料
光学
工程类
气象学
探测器
数学
统计
运筹学
物理
作者
Mariane Chludzinski,Rafael Eugenio dos Santos,Cristina Churiaque,Marta Ortega-Iguña,J.M. Sánchez-Amaya
标识
DOI:10.1007/s00170-022-09028-z
摘要
Abstract Aluminium alloys exhibit eco-friendly aspects related to global environmental issues, such as almost unlimited recyclability. Nevertheless, some intrinsic characteristics are challenges to explore all their benefits. In the welding process, the high thermal conductivity and low melt point require high control of heat input. Alternatively, the pulsed laser mode provides a sharp beam focus with precise control enabling regulating the energy delivered. In this sense, this present work analysed the effect of pulsed laser welding parameters on 3-mm-thick AA5083 aluminium alloy sheets. Trials targeted to develop sound welds with minimum defect and high penetration depth adopting statistical methods. The optimum parameter arrangement was achieved by varying peak power, spot diameter, and pulse duration. Finally, the best parameter combination was applied using different pulse shapes to mitigate crack formation and pores. As a result, the pulse shape with step-down at the end of each pulse generated crack-free spot welds.
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