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The textile industry can experience a vast array of problems. Modelling represents a group of techniques that have been widely used to explore the nature of these problems, it can highlight the mechanisms involved and lead to predictions of the textile behaviour. This book provides an overview of how textile modelling techniques can be used successfully within the textile industry for solving various problems.The first group of chapters reviews the different types of models and methods available for predicting textile structures and behaviour. Chapters include modelling of yarn, woven and nonwoven materials. The second group of chapters presents a selection of case studies, expressing the strengths and limitations and how various models are applied in specific applications. Case studies such as modelling colour properties for textiles and modelling, simulation and control of textile dyeing are discussed.With its distinguished editor and international range of contributors, Modelling and predicting textile behaviour is essential reading material for textile technologists, fibre scientists and textile engineers. It will also be beneficial for academics researching this important area. - Provides an overview of the different types of models and methods that can be used successfully within the textile industry - Reviews the structural hierarchy in textile materials fundamental to the modelling of textile fibrous structures - Assesses the strengths and weaknesses of different textile models and how specific models are applied in different situations
Welcome to the 3rd Indonesian Textile Conference (ITC) 2019. It is our great honor and pleasure to have you all here today. Indonesian Textile Conference is by far the only scientific event in the field of textiles in Indonesia aimed to bring together leading researchers, experts, students and people from the industry to share their knowledge and exchange scientific ideas. Indonesia is one of the leading textile exporter countries in the world with a total export value of USD 15.3 billion in 2015 and ranked the third after palm oil and steel (source: Ministry of Industry of Republic of Indonesia). It is one of the ten priority industries and the mainstay of Indonesian national industry. In a global economy and fast changing world, the future of Indonesian textile industry will increasingly depend on the industry’s ability to relentlessly innovate in its products, to use the most advanced, flexible and resource-efficient processes and to focus its organizational structure as well as business operations according to the ever changing and growing needs of its customers. In all that, research and innovation are vital and play an ever increasing role. Indonesian Textile Conference was initiated and is dedicated to promote and bring progress to research and innovation in the field of textile and textile-related subjects in Indonesia. Textile is a rich multidisciplinary area of study and in fact has attracted a great deal of attention and numerous contributions from non-textile scientists. It is not just about clothing. It is all about material and all aspects that are inherent in the process of its production and applications. It covers a whole lot of area which includes but not limited to: advanced material and textile fibers, natural fibers and natural dyes, utilization of natural sources for textiles in general and/or functional textiles, environmental protection and ecological considerations in textile industry, life cycle analysis, clean/green production, best practices in energy efficient processes, bio-based polymer, bioengineering, nanotechnology, textile-based composites, industrial management and engineering, traditional textiles and batik, textile preservation and conservation, and design. Smart, functional and interactive textile is another area of interest which is quite recent and resulted from the convergence of latest developments in material science, physics and chemistry, microelectronics and informatics. Stimuli responsive materials, self-healing polymers, textile energy devices, textile sensor and antenna are only a few examples of development in this area. Recently added to this is a new emerging “fashionable technology”. It is a new concept that brings fashion to the next level by integrating technology and fashion. It looks at the future fashion as intersection of design, fashion, science, and technology beyond wearable technology. Still another important and interesting issue in textile is sustainability, especially due to the stigma associated with the industry as the big polluter and being not environmentally-friendly. Sustainable textiles and clothing involves the choice of materials, technologies and processing methods that ensure environmental and social friendliness and safety to human health throughout the entire life-cycle phases. Thus, there is an ample room for almost everyone to contribute in this conference. On behalf of the Organizing Committee and the management of Politeknik STTT Bandung, have a productive and fruitful conference.
The use of mathematical modelling and computer simulation can vastly improve the quality, efficiency and economic success of textile technology. Simulation in textile technology provides a comprehensive review of the key principles, applications and benefits of modelling for textile production.After an introduction to modelling and simulation, Simulation in textile technology goes on to review the principles and applications of the main types of model. The book first discusses neural networks and their applications before going on to explore evolutionary methods and fuzzy logic. It then considers computational fluid dynamics and finite element modelling. The modelling of fibrous structures and yarns are considered in the following chapters, along with wound packages, woven, braided and knitted structures. The book concludes by reviewing the simulation of textile processes and machinery.With its distinguished editor and team of expert contributors, Simulation in textile technology is a valuable reference tool for all those involved in both developing models of textile processes and those applying them to improve process efficiency and product quality. - Provides a comprehensive review of the key principles, applications and benefits of modelling for textile production - Discusses neural networks and their applications before going on to explore evolutionary methods and fuzzy logic - Considers the modelling of fibrous structures and yarns, along with wound packages, woven, braided and knitted structures
Multi-scale modelling of composites is a very relevant topic in composites science. This is illustrated by the numerous sessions in the recent European and International Conferences on Composite Materials, but also by the fast developments in multi-scale modelling software tools, developed by large industrial players such as Siemens (Virtual Material Characterization toolkit and MultiMechanics virtual testing software), MSC/e-Xstream (Digimat software), Simulia (micromechanics plug-in in Abaqus), HyperSizer (Multi-scale design of composites), Altair (Altair Multiscale Designer) This book is intended to be an ideal reference on the latest advances in multi-scale modelling of fibre-reinforced polymer composites, that is accessible for both (young) researchers and end users of modelling software. We target three main groups: This book aims at a complete introduction and overview of the state-of-the-art in multi-scale modelling of composites in three axes: • ranging from prediction of homogenized elastic properties to nonlinear material behaviour • ranging from geometrical models for random packing of unidirectional fibres over meso-scale geometries for textile composites to orientation tensors for short fibre composites • ranging from damage modelling of unidirectionally reinforced composites over textile composites to short fibre-reinforced composites The book covers the three most important scales in multi-scale modelling of composites: (i) micro-scale, (ii) meso-scale and (iii) macro-scale. The nano-scale and related atomistic and molecular modelling approaches are deliberately excluded, since the book wants to focus on continuum mechanics and there are already a lot of dedicated books about polymer nanocomposites. A strong focus is put on physics-based damage modelling, in the sense that the chapters devote attention to modelling the different damage mechanisms (matrix cracking, fibre/matrix debonding, delamination, fibre fracture,...) in such a way that the underlying physics of the initiation and growth of these damage modes is respected. The book also gives room to not only discuss the finite element based approaches for multi-scale modelling, but also much faster methods that are popular in industrial software, such as Mean Field Homogenization methods (based on Mori-Tanaka and Eshelby solutions) and variational methods (shear lag theory and more advanced theories). Since the book targets a wide audience, the focus is put on the most common numerical approaches that are used in multi-scale modelling. Very specialized numerical methods like peridynamics modelling, Material Point Method, eXtended Finite Element Method (XFEM), isogeometric analysis, SPH (Smoothed Particle Hydrodynamics),... are excluded. Outline of the book The book is divided in three large parts, well balanced with each a similar number of chapters:
Advances in Modeling and Simulation in Textile Engineering: New Concepts, Methods, and Applications explains the advanced principles and techniques that can be used to solve textile engineering problems using numerical modeling and simulation. The book draws on innovative research and industry practice to explain methods for the modeling of all of these processes, helping readers apply computational power to more areas of textile engineering. Experimental results are presented and linked closely to processes and methods of implementation. Diverse concepts such as heat transfer, fluid dynamics, three-dimensional motion, and multi-phase flow are addressed. Finally, tools, theoretical principles, and numerical models are extensively covered. Textile engineering involves complex processes which are not easily expressed numerically or simulated, such as fiber motion simulation, yarn to fiber formation, melt spinning technology, optimization of yarn production, textile machinery design and optimization, and modeling of textile/fabric reinforcements. - Provides new approaches and techniques to simulate a wide range of textile processes from geometry to manufacturing - Includes coverage of detailed mathematical methods for textiles, including neural networks, genetic algorithms, and the finite element method - Addresses modeling techniques for many different phenomena, including heat transfer, fluid dynamics and multi-phase flow
Structure and Mechanics of Textile Fibre Assemblies, Second Edition, offers detailed information on all aspects of textile structure and mechanics. This new edition is updated to include the latest technology and techniques, as well as fiber assembly for major application areas. Chapters discuss the mechanics of materials and key mechanical concepts, such as stress, strain, bending and shear, but also examine structure and mechanics in-depth, including fabric type, covering yarns, woven fabrics, knitted fabrics, nonwovens, tufted fabrics, textile composites, laminated and coated textile fabrics, and braided structures. Finally, structure and mechanics are approached from the viewpoint of key applications areas. This book will be an essential source of information for scientists, technologists, engineers, designers, manufacturers and R&D managers in the textile industry, as well as academics and researchers in textiles and fiber science. - Provides methodical coverage of all essential fabric types, including yarns, woven fabrics, knitted fabrics, nonwovens, tufted fabrics, textile composites, laminated and coated textile fabrics, and braided structures - Enables the reader to understand the mechanical properties and structural parameters of fabric at a highly detailed level - Expanded update includes an analysis of fiber assemblies for key technical areas, such as protective fabrics and medical textiles
The ability of a fabric to resist wear is an essential aspect of its performance. Understanding and improving the durability of textiles provides a comprehensive guide to the factors affecting the durability of a range of different textiles.Part one addresses the different factors that affect textile durability, including the influence of fabric construction and fibre type, as well as properties affecting strength and dimensional stability. Colour fastness and the effects of light are discussed, along with methods for testing and improving wrinkle-resistance and textile durability. Part two goes on to explore the durability of particular types of textile including antimicrobial textiles, protective clothing, historic textiles, silk and geotextiles.With its distinguished editor and international team of expert contributors, Understanding and improving the durability of textiles is an indispensable book for textile scientists, technologists, engineers and those designing, testing and manufacturing textiles. It also provides a comprehensive guide to textile durability for researchers and academics of all levels in this sector. - Provides a comprehensive guide to the factors affecting the durability of a range of different textiles - Discusses colour fastness and the effects of light, and methods for testing and improving wrinkle-resistance and textile durability - Explores the durability of particular types of textile
This book presents the textile-, mathematical and mechanical background for the modelling of fiber based structures such as yarns, braided and knitted textiles. The hierarchical scales of these textiles and the structural elements at the different levels are analysed and the methods for their modelling are presented. The author reports about problems, methods and algorithms and possible solutions from his twenty year experience in the modelling and software development of CAD for textiles.
The production of textile materials comprises a very large and complex global industry that utilises a diverse range of fibre types and creates a variety of textile products. As the great majority of such products are coloured, predominantly using aqueous dyeing processes, the coloration of textiles is a large-scale global business in which complex procedures are used to apply different types of dye to the various types of textile material. The development of such dyeing processes is the result of substantial research activity, undertaken over many decades, into the physico-chemical aspects of dye adsorption and the establishment of ‘dyeing theory’, which seeks to describe the mechanism by which dyes interact with textile fibres. Physico-Chemical Aspects of Textile Coloration provides a comprehensive treatment of the physical chemistry involved in the dyeing of the major types of natural, man-made and synthetic fibres with the principal types of dye. The book covers: fundamental aspects of the physical and chemical structure of both fibres and dyes, together with the structure and properties of water, in relation to dyeing; dyeing as an area of study as well as the terminology employed in dyeing technology and science; contemporary views of intermolecular forces and the nature of the interactions that can occur between dyes and fibres at a molecular level; fundamental principles involved in dyeing theory, as represented by the thermodynamics and kinetics of dye sorption; detailed accounts of the mechanism of dyeing that applies to cotton (and other cellulosic fibres), polyester, polyamide, wool, polyacrylonitrile and silk fibres; non-aqueous dyeing, as represented by the use of air, organic solvents and supercritical CO2 fluid as alternatives to water as application medium. The up-to-date text is supported by a large number of tables, figures and illustrations as well as footnotes and widespread use of references to published work. The book is essential reading for students, teachers, researchers and professionals involved in textile coloration.
The book provides new perspectives from leading researchers accentuating and examining the central role of the built environment in conceiving and implementing multifaceted solutions for the complex challenges of our understanding of planetary resources and circularity, revealing critical potentials for architecture and design to contribute in more informed and long-term ways to the urgent transition of our society. The book offers a compilation of peer-reviewed papers that uniquely connects knowledge broadly across practice and academia; from the newest technologies and methods such as the role of digital modelling, analysis, and fabrication in circular design, i.e. material passports, cyber-physical augmentation, and LCA to the potentials of growing and harvesting biomass materials, engaging waste streams in material production and more, all in context of economic, social, and ecological potentials and consequences. The book is part of a series of six volumes that explore the agency of the built environment in relation to the SDGs through new research conducted by leading researchers. The series is led by editors Mette Ramsgaard Thomsen and Martin Tamke in collaboration with the theme editors: - Design for Climate Adaptation: Billie Faircloth and Maibritt Pedersen Zari - Design for Rethinking Resources: Carlo Ratti and Mette Ramsgaard Thomsen (Eds.) - Design for Resilient Communities: Anna Rubbo and Juan Du (Eds.) - Design for Health: Arif Hasan and Christian Benimana (Eds.) - Design for Inclusivity: Magda Mostafa and Ruth Baumeister (Eds.) - Design for Partnerships for Change: Sandi Hilal and Merve Bedir (Eds.)