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Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites

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Zeitschriftentitel: REVIEWS ON ADVANCED MATERIALS SCIENCE
Personen und Körperschaften: Bhaskar, Sourabh, Kumar, Mukesh, Patnaik, Amar
In: REVIEWS ON ADVANCED MATERIALS SCIENCE, 58, 2019, 1, S. 280-294
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
Walter de Gruyter GmbH
Schlagwörter:
Condensed Matter Physics
General Materials Science
author_facet Bhaskar, Sourabh
Kumar, Mukesh
Patnaik, Amar
Bhaskar, Sourabh
Kumar, Mukesh
Patnaik, Amar
author Bhaskar, Sourabh
Kumar, Mukesh
Patnaik, Amar
spellingShingle Bhaskar, Sourabh
Kumar, Mukesh
Patnaik, Amar
REVIEWS ON ADVANCED MATERIALS SCIENCE
Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites
Condensed Matter Physics
General Materials Science
author_sort bhaskar, sourabh
spelling Bhaskar, Sourabh Kumar, Mukesh Patnaik, Amar 1605-8127 Walter de Gruyter GmbH Condensed Matter Physics General Materials Science http://dx.doi.org/10.1515/rams-2019-0033 <jats:title>Abstract</jats:title> <jats:p>This review manuscript highlights the effects of various ceramic particulates on different aspects like tribo-logical (sliding wear), mechanical and thermal behaviour etc. of aluminium alloy composites, across various operating parameters like normal load (N), sliding velocity (m/s), sliding distance (m), temperature (°C), reinforcement weight percentage. It also discusses different fabrication techniques of such composites as reported by various scholars. Such advanced alloyed-composites find frequent applications in automotives, military, marine, structural, etc. applications, where tribo-logical phenomenon plays a dominant role. The material scientists world-wide are actively engage in improving life of such components by enhancing their mechanical, physical, chemical etc. properties along with improvement in wear resistance in a cost-effective manner. This overall enhances the working efficiency of the component in required applications. Single or binary or hybrid ceramic reinforcement with varying content is explored by scholars and has ample scope of further exploration. It has been concluded from the literature review that ceramic reinforcement lead to significant enhancement in mechanical, tribological and thermal characteristics of Al alloy based MMCs. Further, the micro-sized ceramic particulates increase the interfacial bond strength between the matrix-reinforcement that enhances effective load transfer and sustain it at various tribological operating parameters, that further validated by surface morphology studies.</jats:p> Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites REVIEWS ON ADVANCED MATERIALS SCIENCE
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series REVIEWS ON ADVANCED MATERIALS SCIENCE
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title Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites
title_unstemmed Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites
title_full Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites
title_fullStr Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites
title_full_unstemmed Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites
title_short Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites
title_sort mechanical and tribological overview of ceramic particulates reinforced aluminium alloy composites
topic Condensed Matter Physics
General Materials Science
url http://dx.doi.org/10.1515/rams-2019-0033
publishDate 2019
physical 280-294
description <jats:title>Abstract</jats:title> <jats:p>This review manuscript highlights the effects of various ceramic particulates on different aspects like tribo-logical (sliding wear), mechanical and thermal behaviour etc. of aluminium alloy composites, across various operating parameters like normal load (N), sliding velocity (m/s), sliding distance (m), temperature (°C), reinforcement weight percentage. It also discusses different fabrication techniques of such composites as reported by various scholars. Such advanced alloyed-composites find frequent applications in automotives, military, marine, structural, etc. applications, where tribo-logical phenomenon plays a dominant role. The material scientists world-wide are actively engage in improving life of such components by enhancing their mechanical, physical, chemical etc. properties along with improvement in wear resistance in a cost-effective manner. This overall enhances the working efficiency of the component in required applications. Single or binary or hybrid ceramic reinforcement with varying content is explored by scholars and has ample scope of further exploration. It has been concluded from the literature review that ceramic reinforcement lead to significant enhancement in mechanical, tribological and thermal characteristics of Al alloy based MMCs. Further, the micro-sized ceramic particulates increase the interfacial bond strength between the matrix-reinforcement that enhances effective load transfer and sustain it at various tribological operating parameters, that further validated by surface morphology studies.</jats:p>
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author Bhaskar, Sourabh, Kumar, Mukesh, Patnaik, Amar
author_facet Bhaskar, Sourabh, Kumar, Mukesh, Patnaik, Amar, Bhaskar, Sourabh, Kumar, Mukesh, Patnaik, Amar
author_sort bhaskar, sourabh
container_issue 1
container_start_page 280
container_title REVIEWS ON ADVANCED MATERIALS SCIENCE
container_volume 58
description <jats:title>Abstract</jats:title> <jats:p>This review manuscript highlights the effects of various ceramic particulates on different aspects like tribo-logical (sliding wear), mechanical and thermal behaviour etc. of aluminium alloy composites, across various operating parameters like normal load (N), sliding velocity (m/s), sliding distance (m), temperature (°C), reinforcement weight percentage. It also discusses different fabrication techniques of such composites as reported by various scholars. Such advanced alloyed-composites find frequent applications in automotives, military, marine, structural, etc. applications, where tribo-logical phenomenon plays a dominant role. The material scientists world-wide are actively engage in improving life of such components by enhancing their mechanical, physical, chemical etc. properties along with improvement in wear resistance in a cost-effective manner. This overall enhances the working efficiency of the component in required applications. Single or binary or hybrid ceramic reinforcement with varying content is explored by scholars and has ample scope of further exploration. It has been concluded from the literature review that ceramic reinforcement lead to significant enhancement in mechanical, tribological and thermal characteristics of Al alloy based MMCs. Further, the micro-sized ceramic particulates increase the interfacial bond strength between the matrix-reinforcement that enhances effective load transfer and sustain it at various tribological operating parameters, that further validated by surface morphology studies.</jats:p>
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spelling Bhaskar, Sourabh Kumar, Mukesh Patnaik, Amar 1605-8127 Walter de Gruyter GmbH Condensed Matter Physics General Materials Science http://dx.doi.org/10.1515/rams-2019-0033 <jats:title>Abstract</jats:title> <jats:p>This review manuscript highlights the effects of various ceramic particulates on different aspects like tribo-logical (sliding wear), mechanical and thermal behaviour etc. of aluminium alloy composites, across various operating parameters like normal load (N), sliding velocity (m/s), sliding distance (m), temperature (°C), reinforcement weight percentage. It also discusses different fabrication techniques of such composites as reported by various scholars. Such advanced alloyed-composites find frequent applications in automotives, military, marine, structural, etc. applications, where tribo-logical phenomenon plays a dominant role. The material scientists world-wide are actively engage in improving life of such components by enhancing their mechanical, physical, chemical etc. properties along with improvement in wear resistance in a cost-effective manner. This overall enhances the working efficiency of the component in required applications. Single or binary or hybrid ceramic reinforcement with varying content is explored by scholars and has ample scope of further exploration. It has been concluded from the literature review that ceramic reinforcement lead to significant enhancement in mechanical, tribological and thermal characteristics of Al alloy based MMCs. Further, the micro-sized ceramic particulates increase the interfacial bond strength between the matrix-reinforcement that enhances effective load transfer and sustain it at various tribological operating parameters, that further validated by surface morphology studies.</jats:p> Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites REVIEWS ON ADVANCED MATERIALS SCIENCE
spellingShingle Bhaskar, Sourabh, Kumar, Mukesh, Patnaik, Amar, REVIEWS ON ADVANCED MATERIALS SCIENCE, Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites, Condensed Matter Physics, General Materials Science
title Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites
title_full Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites
title_fullStr Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites
title_full_unstemmed Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites
title_short Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites
title_sort mechanical and tribological overview of ceramic particulates reinforced aluminium alloy composites
title_unstemmed Mechanical and Tribological overview of ceramic particulates reinforced aluminium alloy composites
topic Condensed Matter Physics, General Materials Science
url http://dx.doi.org/10.1515/rams-2019-0033