Abstract
Aluminium alloy is the most favourable material based on the various properties and economic factors. Always there are so many researches going on based on the enhancement of the material properties with various combinations and the various materials mixing rate depending upon the availability. These researches were focused on the augmentations of the properties, and then the corresponding properties can be used in the various applications depending upon the results. In this study, the AA6066 aluminium alloy composites were created with the magnesium oxide and coal ash with a variety of grouping. The specimens were named as AAMgOCA 1 to AAMgOCA 6 with respect to the volume concentration composition. Then, the composites were tested to identify the impact on various strengths such as yield strength, ultimate tensile strength, shear strength, and flexural strength. These strengths were compared with the two conditions of the composites such as annealed and heat‐treated conditions. AAMgOCA 3 has the greatest results in heat‐treated condition when compared with the annealed condition.
Highlights
Aluminium alloy is the most favourable material based on the various properties and economic factors
Always there are so many researches going on based on the enhancement of the material properties with various combinations and the various materials mixing rate depending upon the availability. ese researches were focused on the augmentations of the properties, and the corresponding properties can be used in the various applications depending upon the results
The AA6066 aluminium alloy composites were created with the magnesium oxide and coal ash with a variety of grouping. e specimens were named as AAMgOCA 1 to AAMgOCA 6 with respect to the volume concentration composition. en, the composites were tested to identify the impact on various strengths such as yield strength, ultimate tensile strength, shear strength, and flexural strength
Summary
Kumar et al [8] focused only about the wear and tensile strength of the aluminium-based composite with silicon and titanium From this investigation, microstructures were clearly identified and porosity can be controlled by the design parameters of the mold. Sun et al [17] clearly explained the aluminium alloy, titanium oxide, and magnesium oxide-based composite in heat treatment condition with the help of SEM images and XRD images. Kheder et al [20] discussed and compared the composite combination of the aluminium alloy with various percentages of aluminium oxide, silicon carbide, and magnesium oxide separately Increase of these metals in aluminium alloy provides enhancement in the mechanical properties; they mentioned that the magnesium oxide with aluminium alloy composite can be used in the structural components in the construction field related applications with high strength. The aluminium alloy composite reinforcement is involved with magnesium oxide and the coal ash with various percentage. en the composites were forced for annealed and heat-treated conditions. e corresponding mechanical properties for these composites with two conditions were compared to identify the greater results among the composites
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