Erosion-corrosion Behavior of Aluminum 7075 based SiC Reinforced Nanocomposites

In present study corrosion studies were conducted on Al7075/SiC nanocomposites processed by powder metallurgy and stir casting techniques. The weight percentage of SiC nanoparticles was varied from 1% to 4% for preparing the nanocomposites. The erosion-corrosion studies were conducted by means of sl...

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Published inInternational journal of recent technology and engineering Vol. 8; no. 3; pp. 4794 - 4803
Main Authors S, Adil Ahmed, Murthy, P.L.Srinivasa
Format Journal Article
LanguageEnglish
Published 30.09.2019
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Abstract In present study corrosion studies were conducted on Al7075/SiC nanocomposites processed by powder metallurgy and stir casting techniques. The weight percentage of SiC nanoparticles was varied from 1% to 4% for preparing the nanocomposites. The erosion-corrosion studies were conducted by means of slurry pot experiment under simulated marine environment of 3.5% NaCl. The weight losses of Al7075 alloy and its nanocomposites under various experimental conditions. The studies have been performed at the specimens through using distinct sand concentrations (10-40%) varying rotational/slurry speed (500-1500rpm) and ranging impinging particle (100-600microns) respectively. Powder metallurgy processed nanocomposites showed higher weight loss when compared to those processed using cast route. Worn-out surface analysis using scanning electron microscopy revealed ploughing, abrasion and fracture as the main erosion mechanisms for all materials processed using both the processing techniques.
AbstractList In present study corrosion studies were conducted on Al7075/SiC nanocomposites processed by powder metallurgy and stir casting techniques. The weight percentage of SiC nanoparticles was varied from 1% to 4% for preparing the nanocomposites. The erosion-corrosion studies were conducted by means of slurry pot experiment under simulated marine environment of 3.5% NaCl. The weight losses of Al7075 alloy and its nanocomposites under various experimental conditions. The studies have been performed at the specimens through using distinct sand concentrations (10-40%) varying rotational/slurry speed (500-1500rpm) and ranging impinging particle (100-600microns) respectively. Powder metallurgy processed nanocomposites showed higher weight loss when compared to those processed using cast route. Worn-out surface analysis using scanning electron microscopy revealed ploughing, abrasion and fracture as the main erosion mechanisms for all materials processed using both the processing techniques.
Author Murthy, P.L.Srinivasa
S, Adil Ahmed
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CorporateAuthor Department of Mechanical Engineering, Islamia Institute of Technology, Bangalore, INDIA
Department of Mechanical Engineering, Ramaiah Institute of Technology, Bangalore, INDIA
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