INVESTIGATION OF FRICTION PRESSURE EFFECT ON WELDING QUALITY IN FRICTION STUD WELDING PROCESS

Journal of Engineering and Sustainable Development Pub Date : 2023-05-01 DOI:10.31272/jeasd.27.3.8

Mustafa Saad Kadhim, K. K. Resan

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Abstract

The influence of friction pressure on welding quality when friction stud welding 1017 low carbon steel with AISI 304 austenitic stainless steel is investigated in this study. friction stud welding is employed in industrial applications instead of conventional welding processes Due to the friction welding process didn't need to reach the melting point of welded metals. Welding is performed on these dissimilar metals by utilizing a lathe machine with a load cell connected to a weight indicator and a manufacturing grip to fasten the plate at a rotating speed of 1600 RPM, a friction time of 20 seconds, and a friction pressure of (15, 20, and 25) MPa. After the welding procedure is completed, the specimens are subjected to tensile, torque, and hardness tests to evaluate the welding quality. In addition, optical microscope research was carried out to determine the microstructural aspects. The effect of friction pressure on welding quality was investigated based on the information generated from the results. The increase of friction pressure during the process from 15 MPa to 25 MPa leads to an increasing ultimate tensile strength from 203 MPa to 210 MPa approximately. Also, the torque values raised from 179 N.m to 198 N.m in the same case.

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摩擦螺柱焊过程中摩擦压力对焊接质量影响的研究

研究了1017低碳钢与AISI 304奥氏体不锈钢摩擦螺柱焊时摩擦压力对焊接质量的影响。由于摩擦焊不需要达到被焊金属的熔点，因此在工业应用中采用摩擦螺柱焊来代替传统的焊接工艺。在这些不同的金属上进行焊接，使用车床，将称重传感器连接到重量指示器和制造手柄，以1600转/分钟的转速，20秒的摩擦时间和(15、20和25)兆帕的摩擦压力紧固钢板。焊接程序完成后，试样进行拉伸、扭矩和硬度测试，以评估焊接质量。此外，还进行了光学显微镜研究，以确定微观结构方面。在此基础上，研究了摩擦压力对焊接质量的影响。摩擦压力从15 MPa增加到25 MPa，极限抗拉强度从203 MPa增加到210 MPa。在相同情况下，扭矩值从179 N.m增加到198 N.m。

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