MECHANICAL PROPERTY EVALUATION OF A356/SiCp/Gr METAL MATRIX COMPOSITES

MECHANICAL PROPERTY EVALUATION OF A356/SiCp/Gr METAL MATRIX COMPOSITES

In the present investigation, studies on microstructure and mechanical properties of Aluminium Matrix Composites (AMCs) reinforced with silicon carbide (SiCp) and graphite (Gr) particles. A356 alloy is used as the matrix material with varying the reinforcement of SiCp from 0 to 9 wt% in steps of 3 w...

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Main Authors: B. M. VISWANATHA, M. PRASANNA KUMAR, S. BASAVARAJAPPA, T. S. KIRAN
Format: Article
Language:English
Published: Taylor's University 2013-12-01
Series:Journal of Engineering Science and Technology
Subjects:
Metal matrix composites
Stir casting
Microstructure
Hardness
Tensile properties
Online Access:http://jestec.taylors.edu.my/Vol%208%20Issue%206%20December%2013/Volume%20(8)%20Issue%20(6)%20754-%20763.pdf
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spelling doaj-8bfb5a9c6f5c491baebb3b79d3541afe2020-11-25T00:27:17ZengTaylor's UniversityJournal of Engineering Science and Technology1823-46902013-12-0186754763MECHANICAL PROPERTY EVALUATION OF A356/SiCp/Gr METAL MATRIX COMPOSITES B. M. VISWANATHA0M. PRASANNA KUMAR1 S. BASAVARAJAPPA2T. S. KIRAN3Department of Mechanical Engineering Kalpataru Institute of Technology, Tiptur-572202, India Department of Mechanical Engineering Bapuji Institute of Engineering and Technology, Davanagere-577004, India Department of Mechanical Engineering University B.D.T. College of Engineering, Davanagere-577004, IndiaDepartment of Mechanical Engineering Kalpataru Institute of Technology, Tiptur-572202, India In the present investigation, studies on microstructure and mechanical properties of Aluminium Matrix Composites (AMCs) reinforced with silicon carbide (SiCp) and graphite (Gr) particles. A356 alloy is used as the matrix material with varying the reinforcement of SiCp from 0 to 9 wt% in steps of 3 wt% and fixed quantity of 3 wt% of graphite. The composites were fabricated by liquid metallurgy method. The prepared composites were examined for microstructure to know the particle distribution in the matrix material. Hardness and tensile properties were studied and compared with the alloy. There was a significant improvement in hardness and tensile properties by increasing the weight percentage of SiC particles. http://jestec.taylors.edu.my/Vol%208%20Issue%206%20December%2013/Volume%20(8)%20Issue%20(6)%20754-%20763.pdfMetal matrix compositesStir castingMicrostructureHardnessTensile properties
collection DOAJ
language English
format Article
sources DOAJ
author B. M. VISWANATHA
M. PRASANNA KUMAR
S. BASAVARAJAPPA
T. S. KIRAN
spellingShingle B. M. VISWANATHA
M. PRASANNA KUMAR
S. BASAVARAJAPPA
T. S. KIRAN
MECHANICAL PROPERTY EVALUATION OF A356/SiCp/Gr METAL MATRIX COMPOSITES
Journal of Engineering Science and Technology
Metal matrix composites
Stir casting
Microstructure
Hardness
Tensile properties
author_facet B. M. VISWANATHA
M. PRASANNA KUMAR
S. BASAVARAJAPPA
T. S. KIRAN
author_sort B. M. VISWANATHA
title MECHANICAL PROPERTY EVALUATION OF A356/SiCp/Gr METAL MATRIX COMPOSITES
title_short MECHANICAL PROPERTY EVALUATION OF A356/SiCp/Gr METAL MATRIX COMPOSITES
title_full MECHANICAL PROPERTY EVALUATION OF A356/SiCp/Gr METAL MATRIX COMPOSITES
title_fullStr MECHANICAL PROPERTY EVALUATION OF A356/SiCp/Gr METAL MATRIX COMPOSITES
title_full_unstemmed MECHANICAL PROPERTY EVALUATION OF A356/SiCp/Gr METAL MATRIX COMPOSITES
title_sort mechanical property evaluation of a356/sicp/gr metal matrix composites
publisher Taylor's University
series Journal of Engineering Science and Technology
issn 1823-4690
publishDate 2013-12-01
description In the present investigation, studies on microstructure and mechanical properties of Aluminium Matrix Composites (AMCs) reinforced with silicon carbide (SiCp) and graphite (Gr) particles. A356 alloy is used as the matrix material with varying the reinforcement of SiCp from 0 to 9 wt% in steps of 3 wt% and fixed quantity of 3 wt% of graphite. The composites were fabricated by liquid metallurgy method. The prepared composites were examined for microstructure to know the particle distribution in the matrix material. Hardness and tensile properties were studied and compared with the alloy. There was a significant improvement in hardness and tensile properties by increasing the weight percentage of SiC particles.
topic Metal matrix composites
Stir casting
Microstructure
Hardness
Tensile properties
url http://jestec.taylors.edu.my/Vol%208%20Issue%206%20December%2013/Volume%20(8)%20Issue%20(6)%20754-%20763.pdf
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AT mprasannakumar mechanicalpropertyevaluationofa356sicpgrmetalmatrixcomposites
AT sbasavarajappa mechanicalpropertyevaluationofa356sicpgrmetalmatrixcomposites
AT tskiran mechanicalpropertyevaluationofa356sicpgrmetalmatrixcomposites
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