The effect of machining processes on the physical and surface characteristics of AA2024-B<sub>4</sub>C-SiC hybrid nanocomposites fabricated by hot pressing method

Çevik, Zihni Alp; Karabacak, Abdullah Hasan; Kök, Metin; Çanakçı, Aykut; Kumar, S. Suresh; Varol, Temel

doi:10.1177/0021998321996419

Cited by 12 publications

(2 citation statements)

References 41 publications

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“…During machining of Al2024/B4C/SiC composites, reinforcement particles fill the matrix pores, leading to improved performance [84]. The RSM, ANOVA, and DFA methods are utilized to enhance the machinability properties of hybrid Al7075/SiC/Gr composites [85].…”

Section: Aluminium Reinforced With Silicon (Al/si)mentioning

confidence: 99%

Conventional Machining of Metal Matrix Composites towards Sustainable Manufacturing – Present Scenario and Future Prospects

Gutema,

Lemu

2024

Preprint

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This study provides an in-depth review of the available literature on metal composite material machining, focusing on traditional machining operations such as turning, milling, shaping, drilling, and grinding. The motivation for the study is that this composite type has emerged as a vital material in applications requiring functionality, resilience, cost-effective operation, low consumption of energy and lightweight. Despite its superior characteristics, the manufacturing complexity and poor machinability of metal matrix composites have been the primary barriers to its adoption. Nevertheless, there is a reduction of exceptional efficiency, increase in surface roughness, tool wear and so on in metal matrix composites throughout machining. As a result, this review gives a comprehensive investigation of metal matrix composite machining and effect on process parameters and procedures. Furthermore, this study distinguishes metal matrix composites towards sustainable manufacturing and the metals employed by the researchers, as well as the gaps discovered for future recommendations in metal-based composites.

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Section: Aluminium Reinforced With Silicon (Al/si)mentioning

confidence: 99%

Conventional Machining of Metal Matrix Composites towards Sustainable Manufacturing – Present Scenario and Future Prospects

Gutema,

Lemu

2024

Preprint

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“…Furthermore, these abrasive particles also cause rapid tool wear, poor surface quality, and increased production costs. [16][17][18] However, there are machining processes available such as wire-electrical discharge machining (W-EDM) and machining with computer numerical control (CNC) milling using polycrystalline diamond (PCD) tools that can be utilized for MMCs. W-EDM is an electro-thermal erosion process that cuts electrically conductive materials with a spark created by a wire electrode.…”

Section: Introductionmentioning

confidence: 99%

The effects of different types and ratios of reinforcement, and machining processes on the machinability of Al2024 alloy nanocomposites

Karabacak

Çanakçı

Özkaya

et al. 2023

Journal of Composite Materials

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In the presented study, aluminum metal matrix nanocomposites reinforced with SiC and B4C, with different reinforcement ratios (0–4 wt%), have been prepared using the powder metallurgy method. The main objective of this study is to investigate the effect of different reinforcements and reinforcement amounts on the machinability of metal matrix nanocomposites using different machining processes (WEDM and CNC milling). The surface morphologies of the samples were investigated before and after machining using scanning electron microscopy and chemical analysis of the samples was obtained using EDX and X-ray diffraction. The surface hardness, roughness, and metal removal rate (MRR) before and after machining were examined to investigate the effect of the machining process on the surfaces of the samples. According to the results of the study, the hardness value of the nanocomposite containing 4% B4C by weight (195.6 HB) increased by approximately 90% compared to the hardness value of the pure Al2024 alloy (101.6 HB). After both machining processes, the hardness values of all nanocomposites decreased. In addition, the tensile strength values of the nanocomposites containing 2% B4C and SiC by weight are 392.8 MPa and 377.7 MPa, respectively, while the tensile strength value of the pure Al2024 alloy is 201.7 MPa. After both machining processes, the hardness values of all nanocomposite samples decreased. While the MRR values decreased with the increase in the reinforcement amount of the nanocomposites after machining, the SR values decreased.

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Study on Effect of Milling Time on the Mechanical and Wear Properties of the ZA40-B4C-Graphene Hybrid Nanocomposites Fabricated by Vacuum Hot-Pressing

Çelebi

Çanakçı

Güler

et al. 2023

JOM

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The effect of machining processes on the physical and surface characteristics of AA2024-B₄C-SiC hybrid nanocomposites fabricated by hot pressing method

Cited by 12 publications

References 41 publications

Conventional Machining of Metal Matrix Composites towards Sustainable Manufacturing – Present Scenario and Future Prospects

Conventional Machining of Metal Matrix Composites towards Sustainable Manufacturing – Present Scenario and Future Prospects

The effects of different types and ratios of reinforcement, and machining processes on the machinability of Al2024 alloy nanocomposites

Study on Effect of Milling Time on the Mechanical and Wear Properties of the ZA40-B4C-Graphene Hybrid Nanocomposites Fabricated by Vacuum Hot-Pressing

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The effect of machining processes on the physical and surface characteristics of AA2024-B4C-SiC hybrid nanocomposites fabricated by hot pressing method

Cited by 12 publications

References 41 publications

Conventional Machining of Metal Matrix Composites towards Sustainable Manufacturing – Present Scenario and Future Prospects

Conventional Machining of Metal Matrix Composites towards Sustainable Manufacturing – Present Scenario and Future Prospects

The effects of different types and ratios of reinforcement, and machining processes on the machinability of Al2024 alloy nanocomposites

Study on Effect of Milling Time on the Mechanical and Wear Properties of the ZA40-B4C-Graphene Hybrid Nanocomposites Fabricated by Vacuum Hot-Pressing

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The effect of machining processes on the physical and surface characteristics of AA2024-B₄C-SiC hybrid nanocomposites fabricated by hot pressing method