A groundbreaking book on the recent advances in chemical finishing, innovative fabrication strategies frequently adopted for the mechanical finishing of textiles, as well as the environmental issues in textile sectors
Advanced materials are undoubtedly becoming very popular as substitutes for traditional materials in the textile engineering field. Advanced textile engineering materials are giving way to innovative textile materials with novel functions and are widely perceived as offering huge potential in a wide range of applications such as healthcare, defense, personal protective equipment, textile antennas, garments for motion capture, and sensors, etc.
Advanced Engineering Textile Materials contains 13 chapters written by high profile contributors with many years of experience in textile technology, and cover fundamental and advanced approaches associated with the design and development of textile implants, conductive textiles, 3D textiles, smart-stimuli textiles, antiballistic textiles and fabric structures designed for a medical application intrabody/extra-body, implantable/non-implantable) and various modification and processing techniques.
关于作者
Shahid-ul-Islam received his Ph D in Chemistry from Jamia Millia Islamia (A Central University), India, in 2016. He then joined the Department of Textile Technology at the Indian Institute of Technology Delhi (IITD) where he is currently DST-SERB National Postdoctoral Fellow. His research interests include green chemistry, dyes and pigments, thermodynamics and kinetics of colorants, and textile finishing using polymeric nanocomposites. He is a recipient of several academic awards and competitive fellowships. He has published numerous peer-reviewed research articles in journals of high repute as well as edited 3 books with Wiley-Scrivener.
B. S. Butola obtained his B. Tech. (1990) and Ph.D. degrees (2005) and is an Associate Professor at the Department of Textile Technology, IIT, Delhi. His research interests include functionalization of textiles with metal oxides, use of shear thickening fluids for improving the impact performance of ballistic textiles, polymeric nanocomposites and smart colorants.