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100   $a20130819d2013      uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 00$aMultidisciplinary know-how for smart textiles developers$b[electronic resource] /$fedited by Tu?nde Kirstein
210   $aOxford ;$aPhiladelphia $cWoodhead Pub.$d2013
215   $a1 online resource (540 p.)
225 1 $aWoodhead publishing series in textiles ;$vno. 139
300   $a"The Textile Institute."
311   $a0-85709-342-8 
327   $aCover; Multidisciplinary know-how for smart-textiles developers; Copyright; Contents; Contributor contact details; Woodhead Publishing Series in Textiles; 1 The future of smart-textiles development: new enabling technologies, commercialization and market trends; 1.1 Introduction; 1.2 The technological trade-off between smartness and integration; 1.3 New enabling technologies for smart textiles; 1.4 New approaches in commercialization of smart textiles; 1.5 Future trends; 1.6 Conclusion; 1.7 References; Part I Materials
327   $a2 Types and processing of electro-conductive and semiconducting materials for smart textiles2.1 Introduction; 2.2 Electro-conductive and semiconductive materials; 2.3 Electro-conductive materials and their properties; 2.4 Metals; 2.5 Carbon: carbon black (CB), graphite and carbon nanotubes (CNT); 2.6 Intrinsically conductive polymers (ICP); 2.7 Semiconductive materials and their properties; 2.8 Processing electro-conductive and semiconductive materials into textile structures; 2.9 Future trends; 2.10 Sources of further information and advice; 2.11 Notes; 2.12 References
327   $a3 Optical fibers for smart photonic textiles3.1 Introduction to photonic textiles; 3.2 Total internal reflection (TIR) fiber-based photonic textiles; 3.3 Photonic bandgap (PBG) fiber-based photonic textiles; 3.4 Photonic textile manufacturing; 3.5 Reflective properties of photonic bandgap textiles under ambient illumination; 3.6 Animated photonic bandgap textiles using mixing of ambient and emitted light; 3.7 Potential applications of photonic bandgap textiles; 3.8 Conclusion; 3.9 Acknowledgments; 3.10 References; 4 Conductive nanofibres and nanocoatings for smart textiles; 4.1 Introduction
327   $a4.2 Conductive nanofibres4.3 Conductive nanocoating; 4.4 Application of nanotechnology in smart textiles; 4.5 Future trends; 4.6 Sources of further information and advice; 4.7 References; 5 Polymer-based resistive sensors for smart textiles; 5.1 Introduction; 5.2 Mechanical resistive sensors; 5.3 Chemical resistive sensors; 5.4 Temperature resistive sensors; 5.5 Conclusion and future trends; 5.6 References; 6 Soft capacitance fibers for touch-sensitive smart textiles; 6.1 Introduction: overview of capacitive sensing; 6.2 Soft capacitor fibers for electronic textiles
327   $a6.3 Electrical characterization of the isolated capacitor fiber6.4 Capacitor fiber as a one-dimensional distributed touch sensor; 6.5 Fully woven two-dimensional touch pad sensor using one-dimensional array of capacitance fibers; 6.6 Conclusion; 6.7 References; Part II Technologies; 7 Textile fabrication technologies for embedding electronic functions into fibres, yarns and fabrics; 7.1 Introduction; 7.2 Fibre and yarn production processes: natural fibres; 7.3 Fibre and yarn production processes: continuous (man-made) fibres; 7.4 Functionalisation of fibres and yarns
327   $a7.5 Fabric production: weaving
330   $aSmart-textiles developers draw on diverse fields of knowledge to produce unique materials with enhanced properties and vast potential. Several disciplines outside the traditional textile area are involved in the construction of these smart textiles, and each individual field has its own language, specific terms and approaches. Multidisciplinary know-how for smart-textiles developers provides a filtered knowledge of these areas of expertise, explaining key expressions and demonstrating their relevance to the smart-textiles field.Following an introduction to the new enabling technologies
410  0$aWoodhead publishing in textiles ;$vno. 139.
606   $aTextile industry$xEffect of technological innovations on
606   $aTextile fabrics$xTechnological innovations
606   $aSmart materials
608   $aElectronic books.
615  0$aTextile industry$xEffect of technological innovations on.
615  0$aTextile fabrics$xTechnological innovations.
615  0$aSmart materials.
676   $a677.0286
701   $aKirstein$b Tu?nde$0926072
712 02$aTextile Institute (Manchester, England)
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910462875303321
996   $aMultidisciplinary know-how for smart textiles developers$92079177
997   $aUNINA