Evaluation of friction stir welding on the microstructure and mechanical properties of dissimilar aluminum alloys 5083-O and 6061-T6 for automotive applications

微观结构 汽车工业 材料科学 焊接 冶金 搅拌摩擦焊 工程类 航空航天工程
作者
Gunawan Dwi Haryadi,Muh Taufik,Ockhpina Rochardian,Wahyu Caesarendraca,Krzysztof Żak
出处
期刊:Advances in Science and Technology Research Journal [Society of Polish Mechanical Engineers and Technicians]
卷期号:19 (9): 34-49 被引量:1
标识
DOI:10.12913/22998624/205675
摘要

The friction stir welding (FSW) process, employed for joining aluminium alloys, particularly the 5xxx and 6xxx series, is widely utilized in various applications, notably within the automotive industry.These alloy series exhibit the properties that render them ideal for manufacturing components, such as frames, chassis, and pistons due to their lightweight, strength, and corrosion resistance.FSW is especially advantageous, as it presents an environmentally friendly alternative for aluminum welding, characterized by its low melting point, which facilitates precise thermal control during the welding process.This investigation focuses on the impact of FSW process parameters on the microstructure and mechanical properties of 5083-O and 6061-T6 aluminum alloys, Optimal welding conditions were determined to be a tool rotational speed of 1400 RPM, a travel speed of 30 mm/s, and a tool tilt angle of 1.Under these parameters, a tensile strength efficiency of 75% relative to the 5083-O base material was achieved, with a maximum tensile strength recorded at 203.8449 MPa and a hardness range of 70.1-70.5HV.Microstructural analysis reveals a clean weld surface devoid of significant defects that could compromise weld quality.The material exhibited equiaxed recrystallized grains in the WN zone under optimal parameters.Conversely, the most vulnerable aspect of the welded joint was consistently identified within the heat affected zone (HAZ) of the 6061-T6 side across all parameter configurations.This susceptibility is attributed to grain growth and the dissolution of Mg 2 Si precipitates induced by the thermal effects during the FSW process, as corroborated by microphotographic analysis.
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