Understanding and predicting the structure and properties of woven textiles is important for achieving specific performance characteristics in various woven applications. Woven textiles are used in a range of products such as apparel, technical and industrial textiles. Woven textile structure: Theory and applications provides comprehensive coverage of the structure, behaviour, modeling and design of woven fabrics and their relevance to the textile industry. The first group of chapters review the fundamental principles of woven fabric structures. Part two discusses the mechanics of woven fabrics, topics include shrinkage in woven fabrics, yarn behaviour in woven fabrics and bending behaviour of woven fabrics. Part three presents a selection of chapters on design engineering of woven fabrics, themes such as textile product design methods and modelling for woven fabric design are covered. A final group of chapters is dedicated to addressing practical applications of woven fabrics. Woven textile structure: Theory and applications is essential reading for designers, engineers and technicians involved in the design, manufacture and use of woven textiles and garments. It will also bebeneficial to academics and students. Provides comprehensive coverage of the fundamentals of woven fabric structure including geometrical modeling Examines mechanisms of woven fabric structure featuring shrinkage, buckling, bending and creasing behaviour of textiles Illustrates mathematical modeling and building predictive models for textile product design incorporating validation and testing
Fabric mechanics are fundamental to the way textiles are designed, tested and manufactured and underpin the way woven fabrics are used in the modern world. With fully comprehensive coverage of all aspects of fabric anisotropy, stress-strain relationships and fabric drape modelling and testing, structure and mechanics of woven fabrics, discusses and exemplifies all major aspects of fabric mechanics and their relevance to every stage of the contemporary textile industry. ?? After a general introduction illustrating the role and study of woven fabric mechanics, the first group of chapters examines the structural, tensile, bending and shear properties of woven fabrics. Sections cover the general behaviour of these properties, how they are modelled and their anisotropy. Drape deformation modelling is covered extensively, one chapter detailing theory and a second, computation and simulation. The properties of fabrics with seams and fabric complex deformation analysis and simulation are also detailed. ?? Structure and mechanics of woven fabrics is an essential reference for all textile academics, students, researchers, technicians, engineers and technologists, covering all areas of textile material applications, from composites and geotextiles, to medical textiles and biotextiles.
Woven Textiles: Principles, Technologies and Applications, Second Edition, is an essential guide to woven textiles. This new edition is updated and expanded to include major new application areas, as well as the latest developments and innovations in terms of fibers, yarns, fabrics, machinery and technology. Sections cover fibers and yarns used for weaving, key preparatory techniques, the fundamentals of weaving technology, the characteristics of woven structures, the use of computer assisted design (CAD) systems, techniques for modelling the structure of woven fabrics, methods for the manufacture of 3D woven structures, and the application of woven textiles in a range of technologies. With its distinguished editor and international team of expert contributors, this second edition will be an indispensable guide for all designers, engineers and technicians involved in the design, manufacture and use of woven textiles, as well as for academics and researchers in the field of textiles. Provides extensive coverage of woven textiles, including their preparation, manufacture, woven structures and characteristics Presents the latest technical applications of woven textiles, such as transportation, geotextiles, medical applications, sports and leisure, filtration, and composite structures Enables the reader to understand the latest technological advances in the area of woven textiles
|Author||: Peter Schwartz|
|Release Date||: 2008-10-07|
|ISBN 10||: 1845695232|
|Pages||: 264 pages|
Textile structure and mechanics are fundamental to the way textiles are designed, manufactured, tested and used. Structure and mechanics of textile fibre assemblies discusses aspects of fabric structure and mechanical properties such as tensile, bending and shear properties for a range of fabrics. After a general introduction illustrating the role of fabric structure and mechanics, subsequent chapters discuss the structural, tensile, bending and shear properties of woven, knitted and nonwoven fabrics. Other chapters review the structure and mechanics of yarns, coated fabrics, 2D and 3D textile composites. Testing methods for the measurement of fabric mechanical properties and structure parameters are also explored. With its renowned editor and contributions from some of the world’s leading authorities, Structure and mechanics of textile fibre assemblies is an important reference for textile scientists, technologists, engineers and those designing and manufacturing textiles. It will also be suitable for those within the academic sector. Examines aspects of fabric structure and mechanical properties for a range of fabrics Discusses structure and mechanics of yarn and woven, nonwoven and knitted fabrics Explores testing methods enabling the measurement of fabric mechanical properties and structural parameters
The properties of woven and knitted fabrics differ largely due to the path yarn follows in the fabric structure. This path determines the fabric’s physical properties, mechanical properties, and appearance. A slight variation to the design may result in entirely different properties for the fabric. Structural Textile Design provides detailed insight on different types of designs used for the production of woven and knitted fabrics, highlighting the effect design has on a fabric’s properties and applications. With focus on the techniques used to draw designs and produce them on weaving and knitting machines, this book will be of great interest to textile engineers, professionals and graduate students in textile technology and manufacturing.
Traditionally used in apparel and interior fabrics, woven textiles are increasingly being employed in a variety of technical applications. Woven textiles: Principles, developments and applications provides an essential overview of the manufacture, structure and application of these important textiles. Beginning with an introduction to the fibres and yarns used in weaving, part one goes on to explore key preparatory techniques and the fundamentals of weaving technology. The characteristics of woven structures are then discussed in greater depth in part two, alongside investigation into the use of computer assisted design (CAD) systems, techniques for modelling the structure of woven fabrics, and methods for the manufacture of 3D woven structures. Part three focuses of the application of woven textiles to a wide range of technologies. The use of woven textiles in automotive interiors and other transport applications is discussed, along with woven apparel fabrics, geotextiles, hollow woven fabrics and woven textiles for medical applications. With its distinguished editor and international team of expert contributors, Woven textiles: Principles, developments and applications is an indispensable guide for all designers, engineers and technicians involved in the design, manufacture and use of woven textiles. It also provides a useful overview of woven textile processing and applications for academics and students. Provides an essential overview of the manufacture, structure and application of woven textiles Explores key preparatory techniques and the fundamentals of weaving technology and discusses the characteristics of woven structures Covers the use of computer-assisted design (CAD) systems and methods for the manufacture of 3D woven structures, among other topics
Specialist yarn, woven and fabric structures are key elements in the manufacturing process of many different types of textiles with a variety of applications. This book explores a number of different specialist structures, discussing the developments in technology and manufacturing processes that have taken place in recent years. With its distinguished editor and international team of contributors, Specialist yarn, woven and fabric structures is essential reading for all textile researchers, technicians, engineers and technologies, and will also be suitable for academic purposes. Looks at developments that have occurred in the manufacturing of specialist yarn, weave and fabric structures Discusses different types of specialist yarn structures, such as hybrid, fancy and compound yarns Offers insight into multicomponent fabric structures such as 3D nonwovens, flocked, knotted and jacquard woven fabrics
|Author||: J. Hayavadana|
|Publisher||: CRC Press|
|Release Date||: 2016-01-05|
|ISBN 10||: 9380308973|
|Pages||: 166 pages|
The book deals with the structural details of the woven fabric which has glimpses of primary, secondary, and tertiary weaves. The book has a number of examples on each topic and a few chapters have been given with objective type of questions.
A mixture of science and art, weaving is nearly as old as human history. Despite the many technological advances in the field, however, it is still virtually impossible to control each individual fiber in a woven structure. To help you meet this and other weaving challenges, Handbook of Weaving covers every step of the process clearly and systemati
Nonwovens: Process, Structure, Properties and Applications outlines the concept and principle of entire nonwoven manufacturing process starting from raw material selection, web formation techniques, web bonding methods and finishing. Further, characterization and testing of non-woven fabrics, application of non-woven fabrics in different areas such as apparel, aggrotech, geotech, medical and hygiene, automotive textiles, filtration products, home textiles, roofing and construction and packaging were also discussed in detail. The advancements in non-woven manufacturing known as composite non-woven, their properties and applications were discussed in detail. The application of natural fibers in non-woven manufacturing with their advantages and limitations were also discussed in brief. This book is primarily a text book intended for textile technology students in universities and colleges, researchers, industrialists and academicians, as well as professionals in the apparel and textile industry.
Woven Textile Design offers a comprehensive introduction to weaving for all those wishing to design and produce a wide range of fabrics from scratch. Starting with the basics of woven textile design, the book looks at how to draw up and interpret records and notation, before explaining how different types of cloth are constructed. From the most basic of plain weaves, through twill weaves, textured weaves such as seersucker, crepe and corded cloths to more complicated designs created with extra threads woven in, a wide range of patterns are covered. Illustrated throughout with diagrams, weaving plans and beautiful examples from contemporary designers, the book also includes tips on using different yarns and colours to create stunning and unique designs. Offering clear, practical advice, this book will show you how to interpret your initial concepts and develop your ideas on the loom.
Non-woven Fabrics is differentiated text which covers overall stream from raw fibers to final products and includes features of manufacturing and finish process with specialized application end use. Application range of non-woven fabrics is extended to all the industrial fields needless to say apparel, such as ICT (information and communication technology), bio- and medicals, automobiles, architectures, construction and environmental. Every chapter is related to the important and convergent fields with the technical application purpose from downstream to upstream fields. Also, applicability of non-woven fabrics is introduced to be based on the structural analysis of dimensional concept and various non-woven fabrics as a state-of-art embedded convergent material are emphasized in all industry fields by using nanofibers and carbon fibers.