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Electrets In Engineering

Fundamentals and Applications

  • Vladimir N. Kestelman
  • Leonid S. Pinchuk
  • Victor A. Goldade

Table of contents

  1. Front Matter
    Pages i-x
  2. Vladimir N. Kestelman, Leonid S. Pinchuk, Victor A. Goldade
    Pages 1-45
  3. Vladimir N. Kestelman, Leonid S. Pinchuk, Victor A. Goldade
    Pages 47-76
  4. Vladimir N. Kestelman, Leonid S. Pinchuk, Victor A. Goldade
    Pages 77-90
  5. Vladimir N. Kestelman, Leonid S. Pinchuk, Victor A. Goldade
    Pages 91-116
  6. Vladimir N. Kestelman, Leonid S. Pinchuk, Victor A. Goldade
    Pages 117-165
  7. Vladimir N. Kestelman, Leonid S. Pinchuk, Victor A. Goldade
    Pages 167-202
  8. Vladimir N. Kestelman, Leonid S. Pinchuk, Victor A. Goldade
    Pages 203-247
  9. Vladimir N. Kestelman, Leonid S. Pinchuk, Victor A. Goldade
    Pages 249-273
  10. Back Matter
    Pages 275-281

About this book

Introduction

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.

Keywords

computer dielectrics electronics material materials science simulation

Authors and affiliations

  • Vladimir N. Kestelman
    • 1
  • Leonid S. Pinchuk
    • 2
  • Victor A. Goldade
    • 2
  1. 1.KVN International, Inc.King of PrussiaUSA
  2. 2.Metal-Polymer Research InstituteBelarussian Academy of SciencesBelarus

Bibliographic information