Thermal and Mechanical Investigation of Friction Stir Welding with Disparate Materials AA6061 and AA7075

Q4 Engineering

Recent Patents on Mechanical Engineering Pub Date : 2024-02-19 DOI:10.2174/0122127976284835240116085109

Sabari K, Muniappan A

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引用次数: 0

Abstract

The primary objective of this study is to assess the impact of welding conditions on the mechanical properties of friction stir-welded butt joints created from two distinct aluminium alloys, namely, AA6061 and AA7075. Friction stir welding (FSW), known for its innovation and low-energy solid-state bonding technique, was employed in this research. FSW experiments were carried out on both AA6061 and AA7075 alloys using a computer numerical control (CNC) machine. The selection and design of the tool geometry were meticulous, with an emphasis on new pin profiles that are nearly flat at the weld contact point. Precisely, four distinct tool geometries were machined from HC-HCr (High carbon, high chromium steel): Circular, Square, Tapered third, and Triangular. Critical process variables that significantly influence weld quality include rotation speed (800 rpm-1400 rpm) and traverse speed (12 to 25 mm/min). These variables were carefully optimized to achieve flawless welds. During the friction stir welding process, the nugget zone undergoes significant deformation, leading to the formation of a new microstructure that substantially impacts the mechanical properties of the joint. This study comprehensively investigates the thermal and mechanical properties of friction stir welding using aluminium alloys AA6061 and AA7075, considering various tool shapes. Among the four tool shapes employed, two were found to yield higher hardness values (referred to as BH). Notably, the square-shaped tool produced the highest temperature, reaching up to 690ºC, as determined by thermocouple readings. Based on the findings, the optimal FSW parameters for enhancing hardness involve an axial feed and spindle speed of 800 rpm combined with a feed rate of 15 mm/min. These parameters were identified as crucial for achieving the desired mechanical properties in the friction stir-welded joints. This study presents new developments in FSW technology, which may have patent implications.

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使用 AA6061 和 AA7075 两种不同材料进行搅拌摩擦焊接的热学和力学研究

本研究的主要目的是评估焊接条件对两种不同铝合金（即 AA6061 和 AA7075）摩擦搅拌焊对接接头机械性能的影响。本研究采用了搅拌摩擦焊（FSW）这一以创新和低能固态结合技术而著称的焊接技术。搅拌摩擦焊实验是使用计算机数控（CNC）设备对 AA6061 和 AA7075 两种合金进行的。对工具几何形状的选择和设计都非常细致，重点是在焊接接触点处几乎平整的新销钉轮廓。在 HC-HCR（高碳高铬钢）的基础上，精确地加工出了四种不同的刀具几何形状：圆形、方形、第三锥形和三角形。对焊接质量有重大影响的关键工艺变量包括旋转速度（800 转/分钟-1400 转/分钟）和横移速度（12 至 25 毫米/分钟）。对这些变量进行了精心优化，以获得完美无瑕的焊缝。在搅拌摩擦焊接过程中，金刚石区域会发生显著变形，从而形成新的微观结构，对焊点的机械性能产生重大影响。本研究全面考察了使用铝合金 AA6061 和 AA7075 进行搅拌摩擦焊接的热性能和机械性能，并考虑了不同的工具形状。值得注意的是，根据热电偶读数测定，方形工具产生的温度最高，可达 690ºC。根据研究结果，提高硬度的最佳 FSW 参数包括轴向进给和 800 rpm 的主轴转速，以及 15 mm/min 的进给速度。这些参数被认为是在摩擦搅拌焊接接头中获得理想机械性能的关键。这项研究展示了 FSW 技术的新发展，可能具有专利意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Recent Patents on Mechanical Engineering Engineering-Mechanical Engineering

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0.80

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0.00%

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