Effect of silicon carbide on kerf convergence and irregularity of the surface during abrasive water jet machining of fiber-metal hybrid composites

Selvam, R.; Subramanian, M.; Diviya, M.; Khan, T. M. Yunus; Baig, Rahmath Ulla; Ahamad, Tansir; Kalam, Md. Abul; Razak, Abdul; Monish, N.; Wodajo, Anteneh Wogasso

doi:10.1038/s41598-023-44334-w

Sci Rep

2023

DOI: 10.1038/s41598-023-44334-w

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Effect of silicon carbide on kerf convergence and irregularity of the surface during abrasive water jet machining of fiber-metal hybrid composites

R. Selvam,

M. Subramanian,

M. Diviya

et al.

Abstract: The traditional way to machine hybrid composites is hard because they tend to break, have a high retraction, have a high service temperature, and have an uneven surface irregularity. For high-strength fiber/metal composite constructions, alternative machining methods have drawn interest as a solution to these problems. Current research focuses on enhancing the Abrasive Water Jet Machining process by optimizing its variables using a composite material of epoxy reinforced with silicon carbide, stainless steel wi… Show more

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Cited by 4 publications

References 35 publications

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Modeling eroded topography in masked abrasive slurry jet pocket milling

Moghaddam,

Giorgio,

Papini

2025

International Journal of Mechanical Sciences

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Modeling eroded topography in masked abrasive slurry jet pocket milling

Moghaddam,

Giorgio,

Papini

2025

International Journal of Mechanical Sciences

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Optimum cutting performance of AWJM for Fiber/Metal hybrid composites using GRA-ANN methods

Subramanian,

Selvam,

Balasubramanian

et al. 2024

Materials Today: Proceedings

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Experimental investigation of the distribution patterns of micro-scratches in abrasive waterjet cutting surface

Yang,

Zhao,

Zhu

et al. 2024

Sci Rep

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The existence of striations, and scratches in Abrasive waterjet (AWJ) cutting surface necessitates an exploration of these features for enhancing the cutting accuracy of AWJ machining. This article investigates surface roughness and micro-scratch morphology characteristics on brass cutting surfaces. According to the variation law of surface roughness values, the cutting section can be divided into three regions: the initial region, smooth region, and rough region. Numerous micron-scale scratches were observed in the cutting section. The scratch length, width, and depth values all show an increasing trend as the cutting depth increases, with the scratch length experiencing the greatest growth and variability. The influence of position and traverse speed on scratch size was studied using variance analysis. Furthermore, the length and width of the scratches on the cutting surface are significantly influenced by their position, accounting for 89.19% and 81.13%, respectively. Traverse speed had a minor effect on scratch length and width, accounting for 0.01% and 2.64% respectively. The depth of the scratches is influenced by their position on the cutting surface at a rate of 41.12%, while traverse speed had an impact of 38.10%. Finally, a mathematical method based on standard scores was proposed to assess the quality of the cutting section based on micro-scratch dimension.

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Effect of silicon carbide on kerf convergence and irregularity of the surface during abrasive water jet machining of fiber-metal hybrid composites

Cited by 4 publications

References 35 publications

Modeling eroded topography in masked abrasive slurry jet pocket milling

Modeling eroded topography in masked abrasive slurry jet pocket milling

Optimum cutting performance of AWJM for Fiber/Metal hybrid composites using GRA-ANN methods

Experimental investigation of the distribution patterns of micro-scratches in abrasive waterjet cutting surface

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