Recently a new sphere in materials science· has formed which subject is structure and properties of electret materials used in engineering, medicine, biotechnology and other branches. It is characterized by specific methods of experimental investigations based on recording charge transfer, polarization and depolarization of dielectrics and involves original techniques and physico-mathematical aids where notions that exist at the interface of several natural and technical sciences are concentrated. It embraces a vast area of applications mainly in engineering, instrument making, electronics, medical technique, biotechnology, and etc., has a specialized technological base for electric polarization of dielectrics composed of uncommon technological methods, equipment and instrumentation. Apparently, future fundamental investigations in the domain of electret materials science are to be developed at the interface of computer of dielectrics. Elaboration of a simulation, physics and physical chemistry model for electric polarization of solid media with uneven charge density distribution, complicated by surface phenomena, outer electromagnetic, heat, chemical and other effects, presents a grave methodological problem. The simulation of structures in which polarization follows diffusion mechanism of chemically active molecules or their fragments, and the development of calculation methods for polarized charge relaxation and regularities of dielectric nonlinear properties, are the most urgent objectives of current research. Success in bioelectret effect studies is anticipated to result in profound widening of natural science knowledge.
Crazing Technology for Polyester Fibers reviews PET fibers crazing in surface-active liquids and the use of the crazing mechanism for fiber modification by functional additives. The first chapter reviews existing literature, and subsequent chapters present the research of the authors, with an emphasis on how these techniques can be used to create textiles for a wide variety of purposes. With two highly regarded and very experienced authors bringing together the latest information on polyester crazing technology, this book is essential reading for scientific researchers, engineers, and R&D professionals working on the development of fibers for improving the properties of textiles. Explains fiber crazing mechanisms and processes with a view to their use in developing polyester-based high-performance textiles Focuses on how this mechanism can be used to confer important characteristics, such as antimicrobial properties, reduced flammability, and repellency, making this essential reading for textile scientists and technicians Explores novel techniques and methods for readers who require cutting-edge knowledge of developments in fiber crazing
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