Smart materials : integrated design, engineering approaches, and potential applications
Contributor(s): Filimon, Anca [ed.].
Publisher: New Jersey Apple Academic Press 2019Description: xvi, 426p.ISBN: 9781771886871.Subject(s): Smart materialsDDC classification: 620.1 | Sm27 Summary: Polymer-based smart materials have become attractive in recent years due to the fact that polymers are flexible and provide many advantages compared to inorganic smart materials: they are low cost, they are easy to process, and they exhibit good performance at nano- and microscale levels. This volume focuses on a different class of polymers that are used as smart materials in the areas of biotechnology, medicine, and engineering. The volume aims to answer these questions: How do we distinguish ‘smart materials’? and How do they work? The chapters lay the groundwork for assimilation and exploitation of this technological advancement. Four of the key aspects of the approach that the authors have developed throughout this book are highlighted, namely the multidisciplinary exchange of knowledge, exploration of the relationships between multiple scales and their different behaviors, understanding that material properties are dictated at the smallest scale, and, therefore, the recognition that macroscale behavior can be controlled by nanoscale design.Item type | Current location | Collection | Call number | Status | Date due | Barcode | Item holds |
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PK Kelkar Library, IIT Kanpur | General Stacks | 620.1 Sm27 (Browse shelf) | Available | A184631 |
Browsing PK Kelkar Library, IIT Kanpur Shelves , Collection code: General Stacks Close shelf browser
620.1 Sh1s STRENGTH OF MATERIALS | 620.1 Sh44e Engineering mechanics, dynamics | 620.1 Si6s2 STRENGTH OF MATERIALS | 620.1 Sm27 Smart materials | 620.1 So42t THERMAL ENGINEERING | 620.1 So83i2 INTRODUCTION TO THE THEORY OF ELASTICITY FOR ENGINEERS AND PHYSICISTS | 620.1 Su77m Materials science and technology of optical fabrication |
Polymer-based smart materials have become attractive in recent years due to the fact that polymers are flexible and provide many advantages compared to inorganic smart materials: they are low cost, they are easy to process, and they exhibit good performance at nano- and microscale levels.
This volume focuses on a different class of polymers that are used as smart materials in the areas of biotechnology, medicine, and engineering. The volume aims to answer these questions: How do we distinguish ‘smart materials’? and How do they work? The chapters lay the groundwork for assimilation and exploitation of this technological advancement. Four of the key aspects of the approach that the authors have developed throughout this book are highlighted, namely the multidisciplinary exchange of knowledge, exploration of the relationships between multiple scales and their different behaviors, understanding that material properties are dictated at the smallest scale, and, therefore, the recognition that macroscale behavior can be controlled by nanoscale design.
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