Detail publikace
Mechanical properties of rice husk ash, an environmental pollutant, based composites: A step towards sustainable hybrid composites
Ranjan, Alok Kumar, Harish Nagdeve, Leeladhar Mishra, Abhishek Gaurav, Gajendra Kumar Klemes, Jiri Jaromir
Anglický název
Mechanical properties of rice husk ash, an environmental pollutant, based composites: A step towards sustainable hybrid composites
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
en
Originální abstrakt
There is a dual perspective regarding agricultural materials. The first one is regarding the removal of certain chemical elements for specific applications, and the second one is regarding the recovery of certain elements to make them more appealing. The most appropriate use of agricultural and industrial waste materials demands the development of knowledge insights as a requirement for setting up of demonstration plants on a pilot basis and large-scale industrial adoption resulting in all associated socio-economic benefits. The Stir casting method is employed to fabricate the Metal Matrix Composites (MMCs) material for the application of various industrial products. In the present paper, Aluminum (Al6061) hybrid composite is fabricated and reinforced with Silicon Carbide (SiC), Alumina (Al2O3), Zirconia (ZrSiO4) and agro-waste material, such as Rice Husk Ash (RHA) particles of various configurations. The amount of reinforcement varies SiC (0–2.5 wt%), Al2O3 (0–1.1 wt%), ZrSiO4 (0–0.5 wt%) and RHA (0–1.4 wt%). The effect of reinforcement SiC, Al2O3, ZrSiO4 and RHA on ultimate tensile strength (σut), yield strength (σyt), elongation, breaking strength (σb) and hardness has been studied. Experimental results revealed that hybrid metal matrix composites are improved for σut and σyt by 45.03% and 82.1%. The elongation and hardness of the composite are also enhanced by 19.43% and 12.72% from the base material.
Anglický abstrakt
There is a dual perspective regarding agricultural materials. The first one is regarding the removal of certain chemical elements for specific applications, and the second one is regarding the recovery of certain elements to make them more appealing. The most appropriate use of agricultural and industrial waste materials demands the development of knowledge insights as a requirement for setting up of demonstration plants on a pilot basis and large-scale industrial adoption resulting in all associated socio-economic benefits. The Stir casting method is employed to fabricate the Metal Matrix Composites (MMCs) material for the application of various industrial products. In the present paper, Aluminum (Al6061) hybrid composite is fabricated and reinforced with Silicon Carbide (SiC), Alumina (Al2O3), Zirconia (ZrSiO4) and agro-waste material, such as Rice Husk Ash (RHA) particles of various configurations. The amount of reinforcement varies SiC (0–2.5 wt%), Al2O3 (0–1.1 wt%), ZrSiO4 (0–0.5 wt%) and RHA (0–1.4 wt%). The effect of reinforcement SiC, Al2O3, ZrSiO4 and RHA on ultimate tensile strength (σut), yield strength (σyt), elongation, breaking strength (σb) and hardness has been studied. Experimental results revealed that hybrid metal matrix composites are improved for σut and σyt by 45.03% and 82.1%. The elongation and hardness of the composite are also enhanced by 19.43% and 12.72% from the base material.
Klíčová slova anglicky
Mechanical properties; metal matrix composite; reinforcement; SiC; Al2O3; ZrSiO4 and RHA
Vydáno
12.10.2022
Nakladatel
TAYLOR & FRANCIS INC
Místo
Philadelphia
ISSN
1556-7036
Ročník
4
Číslo
44
Strany od–do
9584–9602
Počet stran
19
BIBTEX
@article{BUT182583,
author="Gajendra Kumar {Gaurav} and Jiří {Klemeš},
title="Mechanical properties of rice husk ash, an environmental pollutant, based composites: A step towards sustainable hybrid composites",
year="2022",
volume="4",
number="44",
month="October",
pages="9584--9602",
publisher="TAYLOR & FRANCIS INC",
address="Philadelphia",
issn="1556-7036"
}