Impact behavior of long glass fibre reinforced aluminum metal matrix composite prepared by friction stir processing technique for automotive

Olhan, Sandeep; Khatkar, Vikas; Behera, B.K.

doi:10.1177/00219983221092012

Journal of Composite Materials

2022

DOI: 10.1177/00219983221092012

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Impact behavior of long glass fibre reinforced aluminum metal matrix composite prepared by friction stir processing technique for automotive

Sandeep Olhan

Vikas Khatkar

B.K. Behera

Abstract: This work dealt with the fabrication of novel long glass fibre reinforced aluminum metal matrix composite (LGFRAMMC) material for automotive applications. The composite specimens were prepared by incorporating long glass fibre with different fibre volume percentage (50, 66, 80, and 100 vol.%) as reinforcement in aluminium alloy (Al6061) using the friction stir processing (FSP) method. The mechanical behaviour of the composite materials was investigated for their primary loading conditions such as tensile and I… Show more

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2024

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Cited by 23 publications

References 44 publications

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Effect of Mg on the Microstructure, Mechanical Properties, and Surface Roughness of Functionally Graded A413 Composite: Machine Learning Approach at Wire‐Cut Electric Discharge Machining Zone

Natarajan,

Ramanathan,

Chenrayan

et al. 2024

Adv Eng Mater

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The present study assists the industrial sectors by implementing low‐weight high‐strength aluminium composite. The pristine magnesium as a reinforcement in three different weight percentages (3.5, 7, and 10.5) is utilized to fabricate the A 413 composite using centrifugal casting. The density analysis concludes a higher level of Mg inclusion prompts the material to save 3.9% of weight. Microstructural study of centrifugal casting specimens reveal a rich existence of hard phase Mg2Si in the outer zone, with its richness decreasing toward the inner zone. The tensile test result affirms the functionally graded nature of the material with the increasing trend of tensile strength from the inner to the outer. Fractured surface analysis concludes the existence of cracks and their propagation for the inner region specimen. The influence of magnesium on the surface finish of functionally graded composite at the wire cut electric discharge machining (WEDM) zone is predicted using a machine learning‐based random forest regressor (RFR) algorithm. The supervised learning algorithm declares that 10.5 wt% of Mg facilitates the minimal surface roughness of 0.229 µm with the optimal combination of parameters 6 A of current, 115 µs of pulse‐on time, 60 µs of pulse‐off time, and 8 N of wire tension.

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Effect of Mg on the Microstructure, Mechanical Properties, and Surface Roughness of Functionally Graded A413 Composite: Machine Learning Approach at Wire‐Cut Electric Discharge Machining Zone

Natarajan,

Ramanathan,

Chenrayan

et al. 2024

Adv Eng Mater

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Flame-retardant textile structural composites for construction application: a review

Agnihotri,

Sheikh,

Singh

et al. 2024

J Mater Sci

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Investigating the Impact of Friction Stir Processing on the Hydrogen Embrittlement in AA6082-T6 Heat-Treatable Aluminum Alloy

Papantoniou,

Karmiris-Obratański,

Leszczyńska-Madej

et al. 2024

Met. Mater. Int.

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This study investigates the impact of friction stir processing (FSP) on the hydrogen embrittlement (HE) in AA6082-T6 heat-treatable aluminum alloy. The effects of different number of FSP passes and different hydrogen cathodic charging (HCC) conditions on the material’s response to HE are examined through comprehensive mechanical testing, microhardness analysis, and microstructural characterization. The results revealed that FSP leads to a decrease in yield strength, ultimate tensile strength, and microhardness, accompanied by an increase in energy absorption. The introduction of hydrogen through HCC significantly reduces mechanical properties, particularly in non-FSPed specimens. Notably, specimens with 8 FSP passes exhibit an interesting behavior with a slight increase in energy absorption and microhardness values after HCC. Microstructural analysis shows that FSP refines the microstructure, resulting in enhanced resistance to hydrogen-induced blistering effects. These findings contribute to the understanding of hydrogen embrittlement in FSPed aluminum alloys, providing insights for developing surface-modified materials suited for hydrogen-rich applications. Graphical Abstract

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Impact behavior of long glass fibre reinforced aluminum metal matrix composite prepared by friction stir processing technique for automotive

Cited by 23 publications

References 44 publications

Effect of Mg on the Microstructure, Mechanical Properties, and Surface Roughness of Functionally Graded A413 Composite: Machine Learning Approach at Wire‐Cut Electric Discharge Machining Zone

Effect of Mg on the Microstructure, Mechanical Properties, and Surface Roughness of Functionally Graded A413 Composite: Machine Learning Approach at Wire‐Cut Electric Discharge Machining Zone

Flame-retardant textile structural composites for construction application: a review

Investigating the Impact of Friction Stir Processing on the Hydrogen Embrittlement in AA6082-T6 Heat-Treatable Aluminum Alloy

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