Microstructure and Mechanical Properties Analysis of Al-6061/B4C Composites Fabricated by Conventional and Bobbin Tool Friction Stir Processing

The Eurasia Proceedings of Science Technology Engineering and Mathematics Pub Date : 2023-10-16 DOI:10.55549/epstem.1363374

Dhaivat DIVEKAR, Kishan FUSE, Vishvesh BADHEKA

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Abstract

Friction stir processing (FSP) is one of the solid-state processing technique that has gained significant attention from researchers and engineers for fabricating composites. Bobbin tool friction stir processing (BTFSP) is a novel version of conventional FSP. In the present paper, 6 mm thick plates of Al-Mg-Si (6061Al –T6) were subjected to BTFSP and CFSP using B4C reinforcement particles for comparison. The reinforcement particle distribution and mechanical properties were investigated in the fabricated composites. Agglomeration was observed in BTFSP composites. The crack formation in the BTFSP was due to the absence of forging action, which deposited the B4C particles in the crack. CFSP composites obtained uniform distribution of the B4C particles at the top surface. The tilt of the tool in CFSP helped in effective forging action by the shoulder at the trailing edge. Micro-hardness results indicated improved hardness at the top surface for both the processed composites.

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Al-6061/B4C复合材料的组织与力学性能分析

搅拌摩擦加工(FSP)是近年来备受国内外复合材料研究人员和工程师关注的固态加工技术之一。筒管刀搅拌摩擦加工(BTFSP)是传统搅拌摩擦加工的新版本。本文采用B4C增强颗粒对6mm厚Al-Mg-Si (6061Al -T6)板进行了BTFSP和CFSP的对比。研究了复合材料中增强颗粒的分布和力学性能。BTFSP复合材料中存在结块现象。BTFSP中裂纹的形成是由于缺乏锻造作用，锻造作用使B4C颗粒沉积在裂纹中。CFSP复合材料表面B4C颗粒分布均匀。在CFSP中，工具的倾斜有助于后缘肩部的有效锻造动作。显微硬度结果表明，两种复合材料的表面硬度均有所提高。

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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来源期刊

The Eurasia Proceedings of Science Technology Engineering and Mathematics

CiteScore

0.20

自引率

0.00%

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