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Title Smart textile coatings and laminates / edited by William C. Smith.

Publication Info.

Duxford, United Kingdom : Woodhead Publishing, an imprint of Elsevier, [2019]

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Available to Pittsburg State University patrons only.

Copies

Location	Call No.	OPAC Message	Status
Axe Elsevier ScienceDirect Ebook	Electronic Book	---	Available

Edition	Second edition.
Description	1 online resource : illustrations
	text txt rdacontent
	computer c rdamedia
	online resource cr rdacarrier
Series	Textile Institute book series
	Textile Institute book series.
Bibliography	Includes bibliographical references and index.
Note	Online resource; title from PDF title page (EBSCO, viewed Decmeber 06, 2018).
Summary	Smart Textile Coatings and Laminates, Second Edition, reviews a variety of topics regarding textile coatings and laminates to provide a stimulus for developing new and improved textile products. It addresses coating and laminating processes and techniques and base fabrics and their interaction in coated fabrics. Other sections discuss the different types of smart and intelligent coatings and laminates, including microencapsulation technology, conductive coatings, breathable coatings, phase change materials and their applications in textiles. Many new chapters have been added in this updated edition, including the medical applications of smart coatings, responsive coatings, and the integration of electronics into textiles. With its highly distinguished editor and array of international contributors, this book is a valuable reference for chemists, textile technologists, fiber scientists, textile engineers, and more.
Contents	Front Cover -- Smart Textile Coatings and Laminates -- Copyright Page -- Contents -- List of contributors -- I. Fundamentals of Textile Coatings and Laminates -- 1 Commentary/overview of textile coating and lamination -- 1.1 Introduction -- 1.1.1 Beginning -- 1.1.2 What are coating and laminating fabrics -- 1.1.3 Smart/intelligent -- 1.2 Industry basics -- 1.2.1 How big -- 1.2.2 Impact on growth -- 1.3 Applications -- 1.4 Conclusions -- 2 Coating and laminating processes and techniques for textiles -- 2.1 Introduction: basic principles of coating and laminating processes -- 2.1.1 General features of coating and laminating -- 2.1.2 Adhesion in coating and laminating -- 2.2 Preparation for coating and lamination -- 2.2.1 Substrate preparation -- 2.2.2 Preparation for coating/adhesive materials -- 2.2.3 Laboratory- and pilot-scale coating trial -- 2.3 Coating methods -- 2.3.1 Immersion/dip coating -- 2.3.2 Knife or blade coating -- 2.3.3 Air-knife coating -- 2.3.4 Metering rod coating -- 2.3.5 Transfer coating -- 2.3.6 Roll coating -- 2.3.7 Gravure or engraved roll coating -- 2.3.8 Screen coating -- 2.3.9 Slot die or extrusion coating -- 2.3.10 Curtain coating -- 2.3.11 Powder coating -- 2.3.12 Spray coating -- 2.3.13 Nonconventional and novel coating methods -- 2.4 Lamination methods -- 2.4.1 Flame lamination -- 2.4.2 Wet adhesive lamination -- 2.4.3 Hot melt lamination -- 2.4.4 Dry heat lamination -- 2.4.5 Ultrasonic laminating -- 2.5 Conclusions -- References -- Further reading -- 3 Base fabrics and their interaction in coated fabrics -- 3.1 Introduction -- 3.1.1 Importance of base fabrics and the interaction between fabric structure and coating -- 3.1.2 Background on base fabrics -- 3.2 Methods of characterization of base fabric and coated fabric properties -- 3.2.1 Uniaxial tensile testing -- 3.2.2 Biaxial testing -- 3.2.3 Shear testing.
	3.2.4 Tear testing -- 3.2.5 Fabric deformation measurements using three-dimensional image correlation -- 3.2.6 Microscopy methods -- 3.3 Materials and experimental setup for parametric studies -- 3.3.1 Materials -- 3.3.1.1 Low areal weight, coated polyethylene terephthalate airbag fabrics -- 3.3.1.2 Medium areal weight, uncoated and neoprene-latex-coated polyethylene terephthalate fabric -- 3.3.1.3 High areal weight, vinyl ester-coated glass fabrics -- 3.4 Effect of weave pattern -- 3.4.1 Effect of weave pattern on shear behavior of uncoated fabrics -- 3.4.2 Effect of weave pattern on shear behavior of thin-coat fabrics -- 3.5 Effect of fill yarn size -- 3.5.1 Effect of fill yarn size on shear behavior of uncoated fabrics -- 3.5.2 Effect of fill yarn size on shear behavior of thin-coat fabrics -- 3.5.3 Effect of fill yarn size on tear behavior of uncoated fabrics -- 3.5.4 Effect of fill yarn size on tear behavior of thin-coat fabrics -- 3.6 Effect of coating thickness and penetration on shear behavior -- 3.6.1 Double- and triple-coat polyethylene terephthalate fabric shear behavior -- 3.6.2 Coagulant-coat polyethylene terephthalate fabrics shear behavior -- 3.6.3 Effect of coating penetration and thickness on multicoat polyethylene terephthalate fabrics with different weave patt... -- 3.6.4 Effect of coating penetration and thickness on multicoat polyethylene terephthalate fabrics with different fill yarn ... -- 3.7 Modeling of coated fabric behavior -- 3.7.1 Analytical models -- 3.7.2 Finite element modeling -- 3.7.2.1 The "crimp" effect -- 3.7.2.2 The "lock-up" angle -- 3.7.2.3 The "glue" effects of coating layer -- 3.7.2.4 Strain rate dependency -- 3.7.2.5 "Tension-only" behavior -- 3.7.2.6 Failure criteria and prediction -- 3.8 Summary and sources of further information and advice -- References -- Further reading.
	II. Smart and Intelligent Coatings and Laminates for Textiles -- 4 Specialty testing techniques for smart textiles -- 4.1 Introduction -- 4.2 Testing of thermal regulated textiles -- 4.2.1 Scanning electron microscopy -- 4.2.2 Differential scanning calorimetry -- 4.2.3 Infrared thermography -- 4.2.4 Thermal conductivity -- 4.3 Testing of self-cleaning and hydrophobic textiles -- 4.3.1 Fourier transform infrared spectrum -- 4.3.2 Atomic force microscopy surface roughness -- 4.3.3 Contact angle -- 4.3.4 X-ray photoelectron spectroscopy surface chemical composition -- 4.4 Testing of medical textiles -- 4.4.1 Drug-release textiles -- 4.4.2 Antimicrobial textiles -- 4.5 Water vapor permeability -- 4.6 Other testing of smart coatings -- 4.7 Conclusions and future trends -- References -- Further reading -- 5 Microencapsulation technology for coating and laminating -- 5.1 Introduction -- 5.1.1 History of microencapsulation -- 5.1.2 General benefits of microencapsulation -- 5.1.3 Types of microcapsules -- 5.1.4 Techniques of microencapsulation -- 5.1.4.1 Emulsification -- 5.1.4.2 Phase separation/coacervation -- 5.1.5 Release behavior -- 5.2 Main uses of microcapsules in coatings and laminates -- 5.2.1 Carbonless copy paper -- 5.2.2 Self-sealing/healing -- 5.2.3 Wound management/medicament delivery -- 5.2.4 Wear-resistant-self-lubricating -- 5.2.5 Phase change materials -- 5.2.6 Marine, vegetable, and essential oils -- 5.3 Applications of microcapsules in textiles -- 5.3.1 Temperature regulation phase change materials -- 5.3.2 Flame retardants -- 5.3.3 Deodorizing and fragrance enhancing additives -- 5.3.4 Liposomes -- 5.3.5 Polychromic and thermochromic dyes -- 5.3.6 Insect and/or animal repellant -- 5.3.7 Medical applications -- 5.3.8 Cosmetic textiles (cosmotextiles) reviews -- 5.4 Sources of further information and advice -- References -- Further reading.
	6 Stimuli-responsive polymers in coating and laminating for functional textile -- 6.1 Introduction -- 6.2 Mechanism of stimuli-responsive polymer -- 6.3 Types of stimuli-responsive polymer -- 6.4 Coating and laminating -- 6.5 Properties of stimuli-responsive shape memory polymer -- 6.5.1 Water vapor permeability of fabric coated with polymer -- 6.5.2 Mechanical properties -- 6.6 Applications -- 6.7 Conclusion -- References -- 7 Phase change materials and their application in coatings and laminates for textiles -- 7.1 Introduction -- 7.2 Phase change materials -- 7.3 Textile coatings and laminates with phase change material treatment -- 7.4 Thermal effects -- 7.5 Determination of the thermal effects -- 7.5.1 Differential scanning calorimetry -- 7.5.2 Dynamic heat transfer measurements -- 7.5.3 Temperature and heat input variation measurements -- 7.6 Applications of textile coatings and laminates with phase change materials -- 7.6.1 Increased thermal protection by the phase change material application in heat-protective gloves -- 7.6.2 Enhanced thermo-physiological wearing comfort of skiwear through an active thermal insulation effect provided by the ... -- 7.6.3 Active thermal and moisture management by the phase change material application in chemical protective garments -- 7.6.4 Improved thermal comfort and enhanced energy efficiency of buildings by the phase change material application in arch... -- 7.7 Sources of further information and advice -- References -- 8 Nanotechnology-based advanced coatings and functional finishes for textiles -- 8.1 Introduction -- 8.2 Principles of nanotechnologies for nanocoating, surface finishing, and laminates -- 8.2.1 Nanofibers -- 8.2.2 Nanocomposites -- 8.2.3 Nanocoating -- 8.2.4 Nanofinishing -- 8.2.5 Nanoparticles -- 8.3 Nanotechnology applications in textile structures and functional coatings and finishes.
	8.4 Sources of further information and advice -- References -- 9 Smart flame retardant textile coatings and laminates -- 9.1 Introduction: general requirements and properties of fire retardant coatings -- 9.2 Main types of fire retardant/resistant coatings and laminates -- 9.2.1 Use of additives -- 9.2.1.1 Phosphorus-containing agents -- 9.2.1.2 Halogen-containing flame retardants -- 9.2.2 Intumescent systems that form a carbonaceous/vitreous protective layer over the polymer matrix -- 9.3 Increasing flame retardant coating smartness -- 9.3.1 Use of conventional flame retardants in a smarter way -- 9.3.1.1 Role of nanoparticles -- 9.3.1.2 Introduction of volatile phosphorus-containing species -- 9.3.2 Novel or smart ways of introducing flame retardant coatings to textiles and laminates -- 9.3.2.1 Coating levels versus nanotechnological challenges -- 9.3.2.2 Nanoparticle adsorption/deposition -- 9.3.2.3 Self-assembly of nanolayer films: layer-by-layer treatments -- 9.3.2.4 Sol-gel, silica-based coatings -- 9.3.2.5 Surface grafting of polymer nanofilms: applications of plasma technology -- 9.4 Truly smart flame retardant coatings and laminates and future trends -- References -- 10 Responsive textile coatings -- 10.1 Introduction -- 10.2 Types and classifications of responsive coatings -- 10.2.1 Thermoresponsive coatings -- 10.2.2 Thermoregulating coatings -- 10.2.3 pH-responsive coatings -- 10.2.4 Chemical responsive coatings -- 10.2.5 Light-responsive coatings -- 10.2.6 Electroresponsive coatings -- 10.2.7 Self-healing coatings -- 10.2.8 Infection sensing and smart antibacterial coatings -- 10.3 Potential applications and future technology trends -- 10.3.1 Architectural textiles -- 10.3.2 Protective clothing -- 10.3.3 Automotive -- 10.3.4 Medical textiles -- 10.4 Conclusion -- Acknowledgments -- References -- Further reading -- Index -- Back Cover.
Subject	Coated fabrics.
	Laminated fabrics.
	Textile fabrics.
	Textiles
	Textiles et tissus enduits.
	Textiles et tissus stratifi�s.
	Textiles et tissus.
	cloth.
	TECHNOLOGY & ENGINEERING -- Technical & Manufacturing Industries & Trades.
	TECHNOLOGY & ENGINEERING -- Textiles & Polymers.
	Coated fabrics
	Laminated fabrics
	Textile fabrics
Added Author	Smith, William C., editor
Other Form:	Ebook version : 9780081024294
ISBN	9780081024294 (electronic bk.)
	0081024290 (electronic bk.)
	0081024282
	9780081024287
	9780081024287
Standard No.	AU@ 000064568576