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Understanding the techniques for joining fabrics together in a way that considers durability, strength, leak-tightness, comfort in wear and the aesthetics of the joints is critical to the production of successful, structurally secure fabric products. Joining textiles: Principles and applications is an authoritative guide to the key theories and methods used to join fabrics efficiently.Part one provides a clear overview of sewing technology. The mechanics of stitching, sewing and problems related to sewn textiles are discussed, along with mechanisms of sewing machines and intelligent se
Machine sewing. --- Plastics -- Welding. --- Seams (Sewing). --- Sewing machines -- Design and construction. --- Machine sewing --- Seams (Sewing) --- Sewing machines --- Plastics --- Art, Architecture & Applied Arts --- Arts & Crafts --- Design and construction --- Welding --- Design and construction. --- Welding. --- Clothing factories --- Clothing and dress --- Sewing --- Equipment and supplies --- Màquines de cosir --- Costura a màquina --- Plàstics --- Disseny i construcció --- Soldadura --- Textile fabrics.
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The sensing, adapting, responding, multifunctionality, low energy, small size and weight, ease of forming, and low-cost attributes of smart textiles and their multidisciplinary scope offer numerous end uses in medical, sports and fitness, military, fashion, automotive, aerospace, the built environment, and energy industries. The research and development on these new and high-value materials cross scientific boundaries, redefine material science design and engineering, and enhance quality of life and our environment. “Novel Smart Textiles” is a focused Special Issue that reports the latest research of this field and facilitates dissemination, networking, discussion, and debate.
power spectral density --- encapsulation --- spectral analysis --- visual brain --- quasi-static and cyclic mechanical loading --- transmission line --- PEDOT:PSS --- in-line monitoring --- equivalent circuit --- conductivity --- optimization --- Peltier element --- half-textile --- stretchable electronics --- e-textiles --- carbon nanotextiles --- wearable --- motion sensor --- electric properties --- metal flake --- durability --- stitch-based sensors --- energy harvesting --- metamaterials --- black-box --- smart textiles --- conductive thread --- stiffness --- life-time expectancy --- woven textiles --- visual response --- carbon nanomaterials --- skin-electrode impedance --- biofunctional textiles --- motion tracking --- fabric --- microencapsulation --- thermal textile pixels --- hybrid electrodes --- textile-based stretch sensors --- SMART pattern-changing fabric --- conductive textiles --- smart fabrics --- targeted delivery --- event-related potential (ERP) --- wearables --- analytical model --- split ring resonator --- textile electrode --- composites --- pattern effect --- nanofiber mat --- polymeric composites --- reduced graphene oxide --- EMS textiles --- carbon nanotubes --- electrospinning --- electrically conductive textiles --- psychotextiles --- polymers --- art and design --- parameter identification --- surface area evaluation --- thermal textile pixel --- mechanical and electrical properties --- textile sensors --- multifunctional --- coating --- wearable stretch sensor --- thermal communication --- non-auditory and nonvisual communication --- ECG --- grey-box --- dye-sensitized solar cell --- embroidered e-textiles --- electromagnetic shielding effectiveness --- textile/polymer composite --- stitch structure --- drug-delivery --- biofunctional --- polyacrylonitrile (PAN) --- thermal conductivity --- dye-sensitized solar cell (DSSC) --- smart textile --- electrospun solar cells --- e-textile
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The 12th year of the IJCST textile and clothing research register
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