预热温度对板材 AZ31 合金脉冲激光焊接微观结构和机械性能的影响

IF 1.7 4区工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of Laser Applications Pub Date : 2024-03-28 DOI:10.2351/7.0001214

Pengfei Zhao, Xiaobing Zhang, Shuwang Bian, Wenlong Zhang, Zhanyi Cao

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引用次数: 0

摘要

为了实现 AZ31 镁合金板材的高质量焊接，使用 Nd:YAG 脉冲激光焊机对 AZ31 镁合金（1 毫米）进行了对接实验。研究了预热温度对 AZ31 镁合金脉冲激光焊接微观结构和机械性能的影响。实验结果表明，随着预热温度的升高，焊接中心的等轴晶和熔合边界（FB）的柱状晶的晶粒尺寸先减小后增大，当预热温度为 200 ℃ 时，晶粒尺寸分别达到最小值 18.89 ± 0.45 和 32.09 ± 1.52 μm。当预热温度为 300 ℃ 时，最大力和抗拉强度先增大后减小，并分别达到 2.32 kN 和 193.3 MPa 的最大值。总之，在预热温度为 300 ℃ 时，可获得机械性能优异的焊缝。

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Effect of preheating temperature on the microscopic structure and mechanical performance of pulsed laser welding in sheet AZ31 alloy

To achieve high quality welding of an AZ31 magnesium alloy sheet, butt experiments are conducted using an Nd:YAG pulsed laser welder to weld the AZ31 magnesium alloy (1 mm). The influence of preheating temperature on the microscopic structure and mechanical performance of AZ31 magnesium alloy pulsed laser welding is studied. Experimental results show that with the rising of preheating temperature, the grain size of an equiaxed crystal in the weld center and columnar crystal at the fusion boundary (FB) first decreases and then increases and reaches the minimum values of 18.89 ± 0.45 and 32.09 ± 1.52 μm, respectively, when preheated at 200 °C. The maximum force and tensile strength increase first and decrease and reach the maximum of 2.32 kN and 193.3 MPa, respectively, when the preheating temperature is 300 °C. Above all, the welds with excellent mechanical performance can be obtained at the preheating temperature of 300 °C.

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来源期刊

Journal of Laser Applications 物理-光学

CiteScore

3.60

自引率

9.50%

发文量

125

审稿时长

>12 weeks

期刊介绍： The Journal of Laser Applications (JLA) is the scientific platform of the Laser Institute of America (LIA) and is published in cooperation with AIP Publishing. The high-quality articles cover a broad range from fundamental and applied research and development to industrial applications. Therefore, JLA is a reflection of the state-of-R&D in photonic production, sensing and measurement as well as Laser safety. The following international and well known first-class scientists serve as allocated Editors in 9 new categories: High Precision Materials Processing with Ultrafast Lasers Laser Additive Manufacturing High Power Materials Processing with High Brightness Lasers Emerging Applications of Laser Technologies in High-performance/Multi-function Materials and Structures Surface Modification Lasers in Nanomanufacturing / Nanophotonics & Thin Film Technology Spectroscopy / Imaging / Diagnostics / Measurements Laser Systems and Markets Medical Applications & Safety Thermal Transportation Nanomaterials and Nanoprocessing Laser applications in Microelectronics.