Characterization and property enhancement of chromic oxide reinforced to Al LM26 metal matrix composite

Shambulingamurthy Gowdagere Chikkalingaiah; Girish Kanuvanahalli Bettaiah; M. Hareesha; Chandrakant R. Kini

doi:10.1080/23311916.2025.2536686

Characterization and property enhancement of chromic oxide reinforced to Al LM26 metal matrix composite

Shambulingamurthy Gowdagere Chikkalingaiah
, Girish Kanuvanahalli Bettaiah
, M. Hareesha
, Chandrakant R. Kini^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

This study shows a new way to improve the mechanical properties of the aluminium LM26 alloy by adding chromium oxide as a reinforcement. Instead of using traditional reinforcements, chromium oxide is added in different amounts (2.5% to 10%) to make a high-performance metal matrix composite that can be used in industries like defense, aerospace, and automotive. The microstructural analysis indicated that the chromium oxide particles were evenly distributed, improving mechanical properties. The study found that hardness (38.27%), compressive strength (20.55%), impact strength (34%), and tensile strength (43.48%) all improved significantly with higher chromium oxide wt.%. This work demonstrates its potential for high-strength, lightweight applications. This study bridges a significant research gap by demonstrating the potential of chromium oxide as a reinforcement for advanced aluminium composites.

Original language	English
Article number	2536686
Journal	Cogent Engineering
Volume	12
Issue number	1
DOIs	https://doi.org/10.1080/23311916.2025.2536686
Publication status	Published - 2025

All Science Journal Classification (ASJC) codes

General Computer Science
General Chemical Engineering
General Engineering

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10.1080/23311916.2025.2536686

Cite this

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title = "Characterization and property enhancement of chromic oxide reinforced to Al LM26 metal matrix composite",

abstract = "This study shows a new way to improve the mechanical properties of the aluminium LM26 alloy by adding chromium oxide as a reinforcement. Instead of using traditional reinforcements, chromium oxide is added in different amounts (2.5\% to 10\%) to make a high-performance metal matrix composite that can be used in industries like defense, aerospace, and automotive. The microstructural analysis indicated that the chromium oxide particles were evenly distributed, improving mechanical properties. The study found that hardness (38.27\%), compressive strength (20.55\%), impact strength (34\%), and tensile strength (43.48\%) all improved significantly with higher chromium oxide wt.\%. This work demonstrates its potential for high-strength, lightweight applications. This study bridges a significant research gap by demonstrating the potential of chromium oxide as a reinforcement for advanced aluminium composites.",

author = "Chikkalingaiah, \{Shambulingamurthy Gowdagere\} and \{Kanuvanahalli Bettaiah\}, Girish and M. Hareesha and Kini, \{Chandrakant R.\}",

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AU - Chikkalingaiah, Shambulingamurthy Gowdagere

AU - Kanuvanahalli Bettaiah, Girish

AU - Hareesha, M.

AU - Kini, Chandrakant R.

PY - 2025

Y1 - 2025

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AB - This study shows a new way to improve the mechanical properties of the aluminium LM26 alloy by adding chromium oxide as a reinforcement. Instead of using traditional reinforcements, chromium oxide is added in different amounts (2.5% to 10%) to make a high-performance metal matrix composite that can be used in industries like defense, aerospace, and automotive. The microstructural analysis indicated that the chromium oxide particles were evenly distributed, improving mechanical properties. The study found that hardness (38.27%), compressive strength (20.55%), impact strength (34%), and tensile strength (43.48%) all improved significantly with higher chromium oxide wt.%. This work demonstrates its potential for high-strength, lightweight applications. This study bridges a significant research gap by demonstrating the potential of chromium oxide as a reinforcement for advanced aluminium composites.

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Characterization and property enhancement of chromic oxide reinforced to Al LM26 metal matrix composite

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