Evaluation of microhardness and wear properties of Al 6063 composite reinforced with yttrium oxide using stir casting process

Butola, Ravi; Yuvaraj, N.; Singh, Ravi Pratap; Tyagi, Lakshay; Khan, Faim

doi:10.1108/wje-12-2020-0645

Cited by 13 publications

(5 citation statements)

References 37 publications

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“…Figure 6 shows how the hardness changes with the percentage of reinforcements. The findings of the current study are in line with those of more recent research (Bhoi et al , 2019; Bhoi et al , 2022; Butola et al , 2022).…”

Section: Resultssupporting

confidence: 93%

Synthesis and characterization of DOE-based stir-cast hybrid aluminum composite reinforced with graphene nanoplatelets and cerium oxide

Kumar,

Angra,

Singh

2023

AEAT

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Purpose This research outlines the development and characterization of advanced composite materials and their potential applications in the aerospace industry for interior applications. Advanced composites, such as carbon-fiber-reinforced polymers and ceramic matrix composites, offer significant advantages over traditional metallic materials in terms of weight reduction, stiffness and strength. These materials have been used in various aerospace applications, including aircraft, engines and thermal protection systems. Design/methodology/approach The development of design of experiment–based hybrid aluminum composites using the stir-casting technique has further enhanced the performance and cost-effectiveness of these materials. The design of the experiment was followed to fabricate hybrid composites with nano cerium oxide (nCeO2) and graphene nanoplatelets (GNPs) as reinforcements in the Al-6061 matrix. Findings The Al6061 + 3% nCeO2 + 3% GNPs exhibited a high hardness of 119.6 VHN. The ultimate tensile strength and yield strength are 113.666 MPa and 73.08 MPa, respectively. A uniform distribution of reinforcement particulates was achieved with 3 Wt.% of each reinforcement in the matrix material, which is analyzed using scanning electron microscopy. Fractography revealed that brittle and ductile fractures caused the failure of the fractured specimens in the tensile test. Practical implications The manufactured aluminum composite can be applied in a range of exterior and interior structural parts like wings, wing boxes, motors, gears, engines, antennas, floor beams, etc. The fan case material of the GEnx engine (currently using carbon-fiber reinforcement plastic) for the Boeing 7E7 can be another replacement with manufactured hybrid aluminum composite, which predicts weight savings per engine of close to 120 kg. Originality/value The development of hybrid reinforcements, where two or more types of reinforcements are used in combination, is also a novel approach to improving the properties of these composites. Advanced composite materials are known for their high strength-to-weight ratio. If the newly developed composite material demonstrates superior properties, it can potentially be used to replace traditional materials in aircraft manufacturing. By reducing the weight of aircraft structures, fuel efficiency can be improved, leading to reduced operating costs and environmental impact. This allows for a more customized solution for specific application requirements and can lead to further advancements in materials science and technology.

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Section: Resultssupporting

confidence: 93%

Synthesis and characterization of DOE-based stir-cast hybrid aluminum composite reinforced with graphene nanoplatelets and cerium oxide

Kumar,

Angra,

Singh

2023

AEAT

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“…7a, it is shown that all the CSP composites exhibited higher compressive strength than the neat and Fig. 7b reveals that the CSP composites' compressive strength is generally enhanced compared with the neat, even the least enhancement experienced by 15 wt% CSPs reinforced composite (132.54 MPa) is about 1.1% increment compared with the neat (131.10 MPa); which implies that voids are not closer to the testing surface (top) but lies deep within the composites [18]. The enhancement is attributed to the good bond between the Al 6063 matrix and the CSPs reinforcement, because SiC and CSPs may interact with the movement of dislocation of the matrix material thereby causing dislocation clamp down at matrix-particle contact [16,[45][46][47].…”

Section: Mechanical Properties Of the Neat And Crab Shell Particles R...mentioning

confidence: 87%

Enhancing mechanical properties of aluminium 6063 with crab shell particle reinforcement

Owa,

Olubambi

2024

Discov Appl Sci

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The versatility and beneficial properties of aluminium 6063 make it an excellent material for various applications, but limited in engineering production where strength is a major material selection factor. The utilization of natural resources in material science has gained prominence due to the quest for sustainable and innovative materials. This work explores the development and characterization of an aluminium matrix composite reinforced with crab shell particles (CSPs). The CSPs are produced via the milling process for 72 h and the CSPs are incorporated in varying percentages (0–20 wt%) into the aluminium matrix using a stir casting technique, the mechanical properties (tensile strength, compressive strength, % elongation, and impact energy) of the composites are determined using an Instron universal testing machine (UTM) and a Charpy impact testing machine, respectively. A scanning electron microscope (SEM) is used to examine the microstructure of the composite fracture surfaces and Gywddion 2.65 software is used to view the SEM images of the fracture surfaces in three dimensions (3D). The results revealed that tensile strength, compressive strength, % elongation, and impact energy are enhanced by adding varying percentages of CSPs on the aluminium 6063 composites.

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“…Because of its medium strength corrosion resistance and good surface finish, it is also referred to as the architectural alloy. 25,26 To study the significant effect of reinforcement and FSP the study was performed on three plates. Plate-1 or the base plate aliased (Al00).…”

Section: Methodsmentioning

confidence: 99%

Fabrication and Characterization of AA6063/B₄C Metal Matrix Surface Nanocomposite Using Friction Stir Processing

Pratap

Chandra

Butola

et al. 2022

ECS J. Solid State Sci. Technol.

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In development of nanocomposite the aim of the present work is the formation of self-assembled monolayer (SAM) of boron carbide over the surface of AA6063 using via friction stir processing (FSP). Boron Carbide nano-particle is bonded over the surface of AA6063 followed by FSP technique. To ensure uniform distribution of nanoparticle, reinforcement in the grooves a 0.5 molar solution was prepared by dissolving 0.138g of B4C in 5ml of diethyl ether (DEE) with enhanced surface and mechanical properties. Two passes on both specimens were performed using the same tool with the tool rotational and traverse speed as 1000 rpm and 40 mm/s, respectively. For minimizing defects a square tool pin profile with pin length of 3.5 mm and 7.2 mm diagonal. The resultant specimens were studied for the significant changes in tensile strength, ductility, hardness and wear properties due to the addition of reinforcement material and refinement of grain structure. The microstructural graphs supported by SEM and EDS analysis were focused upon to study the composition of nanocomposite prepared. The nanocomposite and FSPed specimen showed an increase in hardness by more than two folds with a negligible decrease in ductility and an appreciable improvement in wear resistance.

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Evaluation of microhardness and wear properties of Al 6063 composite reinforced with yttrium oxide using stir casting process

Cited by 13 publications

References 37 publications

Synthesis and characterization of DOE-based stir-cast hybrid aluminum composite reinforced with graphene nanoplatelets and cerium oxide

Synthesis and characterization of DOE-based stir-cast hybrid aluminum composite reinforced with graphene nanoplatelets and cerium oxide

Enhancing mechanical properties of aluminium 6063 with crab shell particle reinforcement

Fabrication and Characterization of AA6063/B₄C Metal Matrix Surface Nanocomposite Using Friction Stir Processing

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Evaluation of microhardness and wear properties of Al 6063 composite reinforced with yttrium oxide using stir casting process

Cited by 13 publications

References 37 publications

Synthesis and characterization of DOE-based stir-cast hybrid aluminum composite reinforced with graphene nanoplatelets and cerium oxide

Synthesis and characterization of DOE-based stir-cast hybrid aluminum composite reinforced with graphene nanoplatelets and cerium oxide

Enhancing mechanical properties of aluminium 6063 with crab shell particle reinforcement

Fabrication and Characterization of AA6063/B4C Metal Matrix Surface Nanocomposite Using Friction Stir Processing

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Fabrication and Characterization of AA6063/B₄C Metal Matrix Surface Nanocomposite Using Friction Stir Processing