Micromechanics and Modelling of Adaptive Shape Memory Composites: Micromechanics and Modelling of High Performance Adaptive Shape Memory Composites With Multifunctional materials - Couverture souple
Synopsis
The present work investigates the micromechanics approaches to model the thermomechanical behaviours of shape memory alloy composites. The research is primarily focussed on modelling the pseudoelastic and shape memory behaviours of smart composites, which are inherent in multifunctional materials like shape memory alloys and polymers. In the study, non- adaptive and adaptive matrix materials are used to address the adaptive fibre non-adaptive matrix, and adaptive fibre adaptive matrix concepts, respectively. Nickel-Titanium shape memory alloy wire is used as an adaptive shape memory fibre. Similarly, epoxy matrix that does not exhibit shape memory behaviours is considered as non-adaptive, while matrix possessing such behaviours has been employed as an adaptive matrix. The importance of the present research is to develop the modelling procedures for shape memory composites useful in high performance applications. The first and the foremost requirements are to propose the constitutive relations, which should be simpler in computation and at the same time address the fundamental mechanics of constituent materials.
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Présentation de l'éditeur
The present work investigates the micromechanics approaches to model the thermomechanical behaviours of shape memory alloy composites. The research is primarily focussed on modelling the pseudoelastic and shape memory behaviours of smart composites, which are inherent in multifunctional materials like shape memory alloys and polymers. In the study, non- adaptive and adaptive matrix materials are used to address the adaptive fibre non-adaptive matrix, and adaptive fibre adaptive matrix concepts, respectively. Nickel-Titanium shape memory alloy wire is used as an adaptive shape memory fibre. Similarly, epoxy matrix that does not exhibit shape memory behaviours is considered as non-adaptive, while matrix possessing such behaviours has been employed as an adaptive matrix. The importance of the present research is to develop the modelling procedures for shape memory composites useful in high performance applications. The first and the foremost requirements are to propose the constitutive relations, which should be simpler in computation and at the same time address the fundamental mechanics of constituent materials.
Biographie de l'auteur
Dr. Chetan S. Jarali received the Ph.D. degree in Mechanical Engineering from Visvesvaray Technological University, Belgaum, India in 2012. The Ph.D. was carried out at CSIR National Aerospace Laboratories, Bangalore, India. His research interests involve Smart Materials, Composites, Fatigue,Damage, and Health Monitoring of Adaptive Structures.
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Micromechanics and Modelling of Adaptive Shape Memory Composites
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Taschenbuch. Etat : Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -The present work investigates the micromechanics approaches to model the thermomechanical behaviours of shape memory alloy composites. The research is primarily focussed on modelling the pseudoelastic and shape memory behaviours of smart composites, which are inherent in multifunctional materials like shape memory alloys and polymers. In the study, non- adaptive and adaptive matrix materials are used to address the adaptive fibre non-adaptive matrix, and adaptive fibre adaptive matrix concepts, respectively. Nickel-Titanium shape memory alloy wire is used as an adaptive shape memory fibre. Similarly, epoxy matrix that does not exhibit shape memory behaviours is considered as non-adaptive, while matrix possessing such behaviours has been employed as an adaptive matrix. The importance of the present research is to develop the modelling procedures for shape memory composites useful in high performance applications. The first and the foremost requirements are to propose the constitutive relations, which should be simpler in computation and at the same time address the fundamental mechanics of constituent materials. 204 pp. Englisch. N° de réf. du vendeur 9783848429998
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Micromechanics and Modelling of Adaptive Shape Memory Composites
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Etat : New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. Autor/Autorin: S. Jarali ChetanDr. Chetan S. Jarali received the Ph.D. degree in Mechanical Engineering from Visvesvaray Technological University, Belgaum, India in 2012. The Ph.D. was carried out at CSIR National Aerospace Laboratories, Bangalore,. N° de réf. du vendeur 5521595
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Micromechanics and Modelling of Adaptive Shape Memory Composites | Micromechanics and Modelling of High Performance Adaptive Shape Memory Composites With Multifunctional materials
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Taschenbuch. Etat : Neu. Micromechanics and Modelling of Adaptive Shape Memory Composites | Micromechanics and Modelling of High Performance Adaptive Shape Memory Composites With Multifunctional materials | Chetan S. Jarali | Taschenbuch | 204 S. | Englisch | 2012 | LAP LAMBERT Academic Publishing | EAN 9783848429998 | Verantwortliche Person für die EU: preigu GmbH & Co. KG, Lengericher Landstr. 19, 49078 Osnabrück, mail[at]preigu[dot]de | Anbieter: preigu. N° de réf. du vendeur 106584811
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Micromechanics and Modelling of Adaptive Shape Memory Composites
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Taschenbuch. Etat : Neu. This item is printed on demand - Print on Demand Titel. Neuware -The present work investigates the micromechanics approaches to model the thermomechanical behaviours of shape memory alloy composites. The research is primarily focussed on modelling the pseudoelastic and shape memory behaviours of smart composites, which are inherent in multifunctional materials like shape memory alloys and polymers. In the study, non- adaptive and adaptive matrix materials are used to address the adaptive fibre non-adaptive matrix, and adaptive fibre adaptive matrix concepts, respectively. Nickel-Titanium shape memory alloy wire is used as an adaptive shape memory fibre. Similarly, epoxy matrix that does not exhibit shape memory behaviours is considered as non-adaptive, while matrix possessing such behaviours has been employed as an adaptive matrix. The importance of the present research is to develop the modelling procedures for shape memory composites useful in high performance applications. The first and the foremost requirements are to propose the constitutive relations, which should be simpler in computation and at the same time address the fundamental mechanics of constituent materials.VDM Verlag, Dudweiler Landstraße 99, 66123 Saarbrücken 204 pp. Englisch. N° de réf. du vendeur 9783848429998
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Micromechanics and Modelling of Adaptive Shape Memory Composites : Micromechanics and Modelling of High Performance Adaptive Shape Memory Composites With Multifunctional materials
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ISBN 13 : 9783848429998
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Taschenbuch. Etat : Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - The present work investigates the micromechanics approaches to model the thermomechanical behaviours of shape memory alloy composites. The research is primarily focussed on modelling the pseudoelastic and shape memory behaviours of smart composites, which are inherent in multifunctional materials like shape memory alloys and polymers. In the study, non- adaptive and adaptive matrix materials are used to address the adaptive fibre non-adaptive matrix, and adaptive fibre adaptive matrix concepts, respectively. Nickel-Titanium shape memory alloy wire is used as an adaptive shape memory fibre. Similarly, epoxy matrix that does not exhibit shape memory behaviours is considered as non-adaptive, while matrix possessing such behaviours has been employed as an adaptive matrix. The importance of the present research is to develop the modelling procedures for shape memory composites useful in high performance applications. The first and the foremost requirements are to propose the constitutive relations, which should be simpler in computation and at the same time address the fundamental mechanics of constituent materials. N° de réf. du vendeur 9783848429998
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Micromechanics and Modelling of Adaptive Shape Memory Composites: Micromechanics and Modelling of High Performance Adaptive Shape Memory Composites With Multifunctional materials
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ISBN 10 : 3848429993
ISBN 13 : 9783848429998
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