The effects of the reinforcement of alumina and rice husk particles on the hybrid recycled aluminium AA7075 chips composite on physical, mechanical and morphological properties
Currently, agricultural waste derivatives have been incorporated with synthetic particles into a new generation of hybrid aluminium matrix composites (AMC) due to their excellent properties such as low density, accessibility, ability to reduce environmental pollution, and low production cost. This r...
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my.uthm.eprints.109602024-05-13T11:53:01Z http://eprints.uthm.edu.my/10960/ The effects of the reinforcement of alumina and rice husk particles on the hybrid recycled aluminium AA7075 chips composite on physical, mechanical and morphological properties Kamaruddin, Nor Asmalinda T Technology (General) Currently, agricultural waste derivatives have been incorporated with synthetic particles into a new generation of hybrid aluminium matrix composites (AMC) due to their excellent properties such as low density, accessibility, ability to reduce environmental pollution, and low production cost. This research investigates the effects of particle size of alumina (Al2O3) and composition of rice husk silica (RHA) as reinforcements of hybrid recycled aluminium chip composites using the cold compaction process. The AA7075 chip was reinforced with rice husk and alumina powder at range 0.5 -10.5 wt.%. Rice husk and alumina particles were 63 μm and 1.0 μm to 35.0 μm, respectively. Physically, AMC density increased with Al2O3 particle size. The highest density, porosity, and water absorption were found at 35.0 μm, with 2.5654 g cm-3, 7.49%, and 3.18%, respectively; the lowest were found at 1.0 μm, with 2.3485 g cm-3, 0.62%, and 0.24%. The density decreased by 3.0 wt.%, rose to 8.0 wt.%, then dropped. Density inversely affects porosity and water absorption. Mechanically, the maximum hardness and compression strength are 5.0 μm and 1.0 μm of Al2O3, respectively. Hardness and compression strength decreased with RHA content. At 0.5 wt.% RHA, hardness and compression strength were 111.99 HV and 174.62 MPa. At 10.5% RHA, hardness and compression strength are 53.70 HV and 65.58 MPa. As particle size increases, the distance between reinforcements increases, resulting in coarser grains. More RHA reduces pore formation and makes pores smaller and rounder. When RHA and Al2O3 are added, hybrid aluminium composites work better in aerospace, cars, marines, and electronics 2022-10 Thesis NonPeerReviewed text en http://eprints.uthm.edu.my/10960/1/24p%20NOR%20ASMALINDA%20KAMARUDDIN.pdf text en http://eprints.uthm.edu.my/10960/2/NOR%20ASMALINDA%20KAMARUDDIN%20COPYRIGHT%20DECLARATION.pdf text en http://eprints.uthm.edu.my/10960/3/NOR%20ASMALINDA%20KAMARUDDIN%20WATERMARK.pdf Kamaruddin, Nor Asmalinda (2022) The effects of the reinforcement of alumina and rice husk particles on the hybrid recycled aluminium AA7075 chips composite on physical, mechanical and morphological properties. Masters thesis, Universiti Tun Hussein Onn Malaysia. |
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T Technology (General) Kamaruddin, Nor Asmalinda The effects of the reinforcement of alumina and rice husk particles on the hybrid recycled aluminium AA7075 chips composite on physical, mechanical and morphological properties |
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Currently, agricultural waste derivatives have been incorporated with synthetic particles into a new generation of hybrid aluminium matrix composites (AMC) due to their excellent properties such as low density, accessibility, ability to reduce environmental pollution, and low production cost. This research investigates the effects of particle size of alumina (Al2O3) and composition of rice husk silica (RHA) as reinforcements of hybrid recycled aluminium chip composites using the cold compaction process. The AA7075 chip was reinforced with rice husk and alumina powder at range 0.5 -10.5 wt.%. Rice husk and alumina particles were 63 μm and 1.0 μm to 35.0 μm, respectively. Physically, AMC density increased with Al2O3 particle size. The highest density, porosity, and water absorption were found at 35.0 μm, with 2.5654 g cm-3, 7.49%, and 3.18%, respectively; the lowest were found at 1.0 μm, with 2.3485 g cm-3, 0.62%, and 0.24%. The density decreased by 3.0 wt.%, rose to 8.0 wt.%, then dropped. Density inversely affects porosity and water absorption. Mechanically, the maximum hardness and compression strength are 5.0 μm and 1.0 μm of Al2O3, respectively. Hardness and compression strength decreased with RHA content. At 0.5 wt.% RHA, hardness and compression strength were 111.99 HV and 174.62 MPa. At 10.5% RHA, hardness and compression strength are 53.70 HV and 65.58 MPa. As particle size increases, the distance between reinforcements increases, resulting in coarser grains. More RHA reduces pore formation and makes pores smaller and rounder. When RHA and Al2O3 are added, hybrid aluminium composites work better in aerospace, cars, marines, and electronics |
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Thesis |
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Kamaruddin, Nor Asmalinda |
author_facet |
Kamaruddin, Nor Asmalinda |
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Kamaruddin, Nor Asmalinda |
title |
The effects of the reinforcement of alumina and rice husk particles on the hybrid recycled aluminium AA7075 chips composite on physical, mechanical and morphological properties |
title_short |
The effects of the reinforcement of alumina and rice husk particles on the hybrid recycled aluminium AA7075 chips composite on physical, mechanical and morphological properties |
title_full |
The effects of the reinforcement of alumina and rice husk particles on the hybrid recycled aluminium AA7075 chips composite on physical, mechanical and morphological properties |
title_fullStr |
The effects of the reinforcement of alumina and rice husk particles on the hybrid recycled aluminium AA7075 chips composite on physical, mechanical and morphological properties |
title_full_unstemmed |
The effects of the reinforcement of alumina and rice husk particles on the hybrid recycled aluminium AA7075 chips composite on physical, mechanical and morphological properties |
title_sort |
effects of the reinforcement of alumina and rice husk particles on the hybrid recycled aluminium aa7075 chips composite on physical, mechanical and morphological properties |
publishDate |
2022 |
url |
http://eprints.uthm.edu.my/10960/1/24p%20NOR%20ASMALINDA%20KAMARUDDIN.pdf http://eprints.uthm.edu.my/10960/2/NOR%20ASMALINDA%20KAMARUDDIN%20COPYRIGHT%20DECLARATION.pdf http://eprints.uthm.edu.my/10960/3/NOR%20ASMALINDA%20KAMARUDDIN%20WATERMARK.pdf http://eprints.uthm.edu.my/10960/ |
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