Effect of Reinforcement on Tensile Characteristics in AA 5052 with ZrC and Fly Ash-Based Composites

Aluminum Alloy 5052/ZrC/fly ash composites’ tensile properties are changed by the addition of reinforcements and thermal exposure, according to this study. The precipitation hardening of samples manufactured with various weight percent of fly ash and zirconium carbide was employed to improve the pro...

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Bibliographic Details
Published in:Advances in materials science and engineering 2022, Vol.2022, p.1-7
Main Authors: Mallikarjuna, K., Harikeerthan, M. K., Shubhalakshmi, B. S., Vinay Kumar, K. S., Pratap Singh, Ravindra, Srikanth, Maddali, Krishna Srinivasa Subba Rao, Y., Kumar, Suresh, Shata, Aggegnenu Shara
Format: Article
Language:English
Subjects:
Aircraft
Alloys
Aluminum alloys
Aluminum base alloys
Aluminum composites
Composite materials
Feasibility studies
Fly ash
Heat
Heat treatment
Metals
Modulus of elasticity
Optimization
Precipitation hardening
Process parameters
Tensile properties
Tensile strength
Weight reduction
Zirconium carbide
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Summary:Aluminum Alloy 5052/ZrC/fly ash composites’ tensile properties are changed by the addition of reinforcements and thermal exposure, according to this study. The precipitation hardening of samples manufactured with various weight percent of fly ash and zirconium carbide was employed to improve the properties under thermal circumstances. The tensile properties of reinforced and heat-treated specimens were studied in a series of scientifically-designed experiments. Tensile strength and yield strength rise up to 200°C, after which they begin to decrease slightly (i.e., 250°C) based on the results of the research. Adding reinforcements and exposing the composites to heat increases their elastic modulus which decreases the percentage of El of the composites substantially. Several factors contribute to composites’ increased strength and elastic modulus, the diffusion process, temperatures, and reinforcement composition. It is also possible to manufacture hybridized composite mechanisms for numerous automotive and aviation industries utilizing optimization studies, which interpolate the findings of several sets of parameters to make the process easier.
ISSN:1687-8434
1687-8442
DOI:10.1155/2022/7070304