An Investigation on The Mechanical Properties of FSP Processed Silicon Nitride Reinforced Aluminum Composite

Q2 Environmental Science

Evergreen Pub Date : 2023-09-01 DOI:10.5109/7151680

None Shashi Prakash Dwivedi, None Tarun Kumar Gupta, Ambuj Saxena

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引用次数: 0

Abstract

: In the present investigation, friction stir solid state process has been used to develop a functionally graded composite material reinforced with Si 3 N 4 (Silicon nitride). The main aim of the current investigation is to develop a low density high strength silica reinforced aluminum based composite material develop by friction stir processing (FSP) process for aerospace and defence applications. FGM (Functionally Graded Composite Material) has been prepared by taking two dissimilar aluminium plates with Si 3 N 4 as reinforcement content through friction stir processing (FSP) technique. To evaluate the mechanical properties of developed composite material tensile testing, hardness testing, thermal expansion and corrosion test have been performed. The tensile testing revealed the tensile strength, yield strength and percentage elongation of the developed composite material. Further the hardness testing estimated the scratch resistance. Microstructures results of Si 3 N 4 reinforced FGM composite showed the proper mixing of the ceramic particle in functionally graded materials (Al6063 and Al8011) at optimum FSP parameter. Effects of FSP parameters like Cutting fluid, Tool shape, Tool speed on tensile strength and hardness of FGM composite reinforced with Si 3 N 4 ceramic particles were studied by using Taguchi’s technique L9 Orthogonal Array. The experimental results revealed that the highest tensile Strength is observed as 133.05 N/mm 2 at 1460 rpm for square shaped tool with kerosene as lubricant. Further lower values of tensile Strength i.e., 73.65 N/mm 2 at 920 rpm and 78 N/mm 2 at 2260 rpm are observed. Tensile Strength was good for kerosene with square tool shape and least for triangular and circular tool shape. The hardness of fabricated composite was good for circular tool shape and low speed (i.e., 920 rpm) but continuously decreases when tool shape is different. Hardness is good for brine solution at any tool speed but least for kerosene with any tool speed. The hardness of FGM composite was good for brine solution with any tool shape.

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来源期刊

Evergreen Environmental Science-Management, Monitoring, Policy and Law

CiteScore

4.30

自引率

0.00%

发文量

期刊介绍： “Evergreen - Joint Journal of Novel Carbon Resource Sciences & Green Asia Strategy” is a refereed international open access online journal, serving researchers in academic and research organizations and all practitioners in the science and technology to contribute to the realization of Green Asia where ecology and economic growth coexist. The scope of the journal involves the aspects of science, technology, economic and social science. Namely, Novel Carbon Resource Sciences, Green Asia Strategy, and other fields related to Asian environment should be included in this journal. The journal aims to contribute to resolve or mitigate the global and local problems in Asia by bringing together new ideas and developments. The editors welcome good quality contributions from all over the Asia.