A review of ceramic/bio-based hybrid reinforced aluminium matrix composites

Ikubanni, P.P.; Oki, Makanjuola; Adeleke, A. A.; Stojаnović, Blaža

doi:10.1080/23311916.2020.1727167

Cited by 37 publications

(13 citation statements)

References 59 publications

(103 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…As a reinforcement to metallic matrix composites, agricultural waste in a particular form has increased its significance not only because it is available and cheap but also because it decreases pollution by recycling waste from agricultural activities into useable raw materials in engineering [11]. Moreover, the major constituents within the snail shell are Ca and Si, which can be applied as ceramic reinforcing agent MMCs [12,13]. Peter et al (2020) researched ceramic/bio-based hybrid reinforced ALMMCs and discovered that the density of Al alloy is constantly enhanced when the inclusion of a reinforcing agent is improved, and an increment in reinforcement particles boosts the strength of aluminium matrix composites.…”

Section: Other Agricultural Waste Applicationsmentioning

confidence: 99%

“…Moreover, the major constituents within the snail shell are Ca and Si, which can be applied as ceramic reinforcing agent MMCs [12,13]. Peter et al (2020) researched ceramic/bio-based hybrid reinforced ALMMCs and discovered that the density of Al alloy is constantly enhanced when the inclusion of a reinforcing agent is improved, and an increment in reinforcement particles boosts the strength of aluminium matrix composites.…”

Section: Other Agricultural Waste Applicationsmentioning

confidence: 99%

See 1 more Smart Citation

The Study on Mechanical and Electrical Properties of AA6061/Snail Shell Composites

Udoye

Ezike

Fayomi

et al. 2022

International Journal of Chemical Engineering

View full text Add to dashboard Cite

Metal matrix composites are in high demand for various applications in the industrial sector and engineering firms. Therefore, new materials with enhanced mechanical and ecologically favourable characteristics must be designed and produced. This study focuses on the possibility of developing an aluminium matrix composite using agro-waste materials as reinforcement in preference to other industrial chemicals and materials. The morphological analysis carried out on the AA6061 + 15% snail shell at 100 μm showed the formation of homogenous particle size with stepped crystals. The micrographs of the developed composite were obtained using XRD (X-ray diffraction analysis), which indicated the presence of calcium and hydroxyapatite from the snail shell on the aluminium composite. Electrical analysis performed on the developed composite showed an increase in the conductivity from 32.03 Ωm−1 to 34.59 Ωm−1 as the snail shell reinforcements were increased, thus improving the capability of the developed MMC to transfer electricity due to the occurrence of the snail shell particulate within the composite.

show abstract

Section: Other Agricultural Waste Applicationsmentioning

confidence: 99%

Section: Other Agricultural Waste Applicationsmentioning

confidence: 99%

The Study on Mechanical and Electrical Properties of AA6061/Snail Shell Composites

Udoye

Ezike

Fayomi

et al. 2022

International Journal of Chemical Engineering

View full text Add to dashboard Cite

show abstract

“…In particular, tensile strength and hardness increase well. Although the mechanical properties of the base material would not have developed well if the reinforcement particles were not well distributed in the matrix material [12][13][14]. Figure 4 shows the surface composite microstructure picture formed at optimum FSP parameters (with a single pass by placing the device rotational speed and transverse speed at approximately 966.14 rpm and approximately 23.18 mm/min, respectively).…”

Section: Microstructural Investigation At Optimum Fsp Parametersmentioning

confidence: 99%

Effect of Friction Stir Process Parameters on Mechanical Properties of Al/Eggshell/SiC Composite Material

Islam¹,

Dwivedi²,

Dwivedi³

2021

ACSM

View full text Add to dashboard Cite

The rise in pollution is a serious matter of concern for all nations. Industries are mainly responsible for damaging the balance of the cycle of pollution. In this paper, the mechanical properties of Aluminum have been enhanced by reinforcing it with eggshell wastes and SiC as reinforcement particles. Ball-milling technique has been applied for up to 75 hours for making the densities of Aluminum, Eggshell and SiC equal. The prime focus of this work is to improve the hardness value of Aluminium-based final composite material. Friction Stir Process (FSP) technique has been used to develop the composite and the driving parameters of FSP like rotational speed, transverse speed etc. are optimized with the help of the Box-Behnken Design approach. The optimized value of rotation speed was 966.14 rpm as well as transverse speed was 23.18 mm/min. Hardness and tensile strength of composite developed at an optimum combination of parameters were found to be 72.2 BHN and 194.48 MPa respectively. Results showed that tensile strength and hardness were enhanced by about 44.05% and 64.09% respectively.

show abstract

“…The issue of pollution has encouraged many scientists globally to search for some alternate approach by which pollution could be controlled without any sacrifice in the current life style. Industrial waste is one of the biggest causes of pollution, and it is present everywhere Ikubanni et al, 2020;Senapati et al, 2016), e.g. in air, in water and even on lands.…”

Section: Introductionmentioning

confidence: 99%

Analysis of mechanical properties of Al-based metal matrix composite reinforced with ES and RHA

Yadav

Dwivedi

Islam

et al. 2021

WJE

View full text Add to dashboard Cite

Purpose Aluminium metal matrix composite (AMMC) is most popular in various industrial applications such as aerospace, automobile, marine, sports and many others. In common practice, silicon carbide, aluminum oxides, magnesium oxide, graphene and carbon nano tubes are the major reinforcing elements to prepare the AMMC. The purpose of this paper is to develop AMMCs reinforce with eggshell (ES) and rice husk ash (RHA). Design/methodology/approach Stir casting process is used for preparation of AMMC. From past few years, more emphasis is given to prepare the AMMCs using agro waste such as rice husk and/or ES as reinforcing materials. In this method, after the Al-matrix material is melted; it is stirred vigorously to form vortex at the surface of the melt, and the reinforcement material is then introduced at the side of the vortex. Stir casting process is a vortex and vigorous method to prepare the AMMCs. First, aluminum alloy (AA3105) is melted in the furnace when metal is in semisolid form. Reinforcement, i.e. ES and RHA are preheated at temperature 220°C and 260°C, respectively. Findings The result of AMMC shows that the tensile strength and hardness increased by using 22.41% and 45.5%, respectively, at 4.75 Wt.% each reinforcement, i.e. ES and RHA, and 1% Cr. The toughness and ductility of metal matrix composite (MMCs) have decreased up to 23.31% and 19.23% respectively by using 1% Cr, 4.75 wt. % ES and by 4.75 wt. % RHA of composite material. Originality/value In this work, Cr, waste ES and RHA have been used to develop green MMC to support the green revolution as promoted/suggested by United Nations, thus reducing the environmental pollution.

show abstract

A review of ceramic/bio-based hybrid reinforced aluminium matrix composites

Cited by 37 publications

References 59 publications

The Study on Mechanical and Electrical Properties of AA6061/Snail Shell Composites

The Study on Mechanical and Electrical Properties of AA6061/Snail Shell Composites

Effect of Friction Stir Process Parameters on Mechanical Properties of Al/Eggshell/SiC Composite Material

Analysis of mechanical properties of Al-based metal matrix composite reinforced with ES and RHA

Contact Info

Product

Resources

About