Inorganic and Composite Fibers Production, Properties, and Applications The Textile Institute Book Series
Auteurs : Mahltig Boris, Kyosev Yordan
Inorganic and Composite Fibers: Production, Properties, and Applications provides a comprehensive review on the development, production and application of modern inorganic and composite fibers. Particular emphasis is placed on current production processes, parameters and finishing and functionalization methods for improving their properties and the problems associated with the testing of fibers. Fibers covered include carbon, glass and basalt fibers, metal fibers, such as copper and steel, fibers coated with silver or gold, and nitinol. In addition to pure inorganic fibers, the book looks at organic fibers with a high level of inorganic content, such as cellulosic fibers.
Including contributions from leading experts from universities, research institutes, and producing companies, this book assists materials scientists and engineers in the composites, automotive, textile and medical industries to more efficiently and effectively select fibers for a range of different applications areas.
1. Introduction
Part I: Carbon-based Fibers 2. Carbon fibers 3. Preox fibers 4. Carbon nanotubes 5. Graphene 6. Silicon carbide fibers
Part II: Metaloxid-based fibers 7. Glass fibers 8. Mineral and ceramic fibers 9. Basalt fibers
Part III: Metal-based fibers 10. Metal fibers-steel and copper 11. Metal coated fibers-silver and gold 12. Nitinol
Part IV: Composite fibers 13. Cellulosic-based composite fibers 14. Electrospun composites
Part V: Structural Health Monitoring of processes related to composite manufacturing 20. Weaving Process 21. Stamping Process Supervision 22. Infusion Process Supervision
Academic researchers and Industrial professionals involved in the development of new products using fibers/fiber reinforcement. Masters and PhD students on materials sciences, composites, textiles and biomaterials courses
Yordan Kyosev is the Head of the Chair of Assembly Technology for Textile Products, and Professor at the Institute of Textile Machinery and High-Performance Material Technology at Technische Universitat Dresden, Germany. He is the main developer of the world’s first CAD braiding software packages TexMind Braider and Texmind Braiding Machine Configurator, and provides regular industrial courses and consulting for braiding (www.texmind.com). He was also the main organizer of the 1st, 2nd and 3rd Braiding Colloquiums in Möchengladbach (2014, 2016, 2018). His research focuses on advanced modelling and processing methods for high performance textiles, and he is seen as a leading expert in braiding machinery and technology worldwide.
- Presents a thorough introduction to inorganic fibers, such as carbon fiber and nanotubes, graphene, glass fibers, and many more, including the fundamentals of production, processing and finishing of each fiber type
- Includes coverage of a range of application areas of inorganic fibers to assist in product development
- Keeps researchers up-to-date by providing information on the latest developments in this field, thus supporting further research
Date de parution : 10-2018
Ouvrage de 343 p.
15x22.8 cm
Thèmes d’Inorganic and Composite Fibers :
Mots-clés :
Aluminosilicate; Annealing; Application; Basalt fibersPlease check the that the copyeditor has assigned; and correct if necessary.-->; BNFs; Carbon fibers; Carbon fibersPlease check the that the copyeditor has assigned; and correct if necessary.-->; Carbon nanotubes; Carbonization; Ceramic fibersPlease check the that the copyeditor has assigned; and correct if necessary.-->; CeramicPlease check the that the copyeditor has assigned; and correct if necessary.-->; oxide filaments; Cheap energy; Composite fibers; Conducting fiber; Conductive fibers; Conductive threads; Conductivity; Consumption; Copolymers; Crystallinity; DSSC; Electroplating; Electrospinning; Embedding; Etching; Fiber development; Fiber production; Fiber spinning; Filament formation; Fine wire; Glass fibers; Gold; Graphene; Growth duration; Hydrolysis; Inorganic fibers; Ionic liquid; Melting point; Metal fibers; Metal oxide; Metal oxides; Metal-coated fibers; Nanofiber; Nanosilica; Nicalon; Photocatalytic properties; Polyacrylonitrile; Polymer matrix; Polymers; Polyphosphazene; Preceramic polymer; Precursor; Preox fibersPlease check the that the copyeditor has assigned; and correct if necessary.-->; Properties of glass fibers; PVD; Resin; Sensorial structures; Silica nanosol; Silver; Smart textiles; Sol-gel; Spectrum; Steel; Synthesis; Technology; Thermal conversion; Thermal stability; Thermoset; TiO2; Wearable electronics; Wire drawing; Zirconia
