Elastomer-Based Composite Materials: Mechanical, Dynamic and Microwave Properties, and Engineering Applications

Nikolay Dishovsky, Mihail Mihaylov

Apple Academic Press
Published May 22, 2018
Reference - 486 Pages - 7 Color & 266 B/W Illustrations
ISBN 9781771886208 - CAT# N11960

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Features

  • Describes a new, easy-to-accomplish, and cheap method for the synthesis of hybrid fillers for rubber composites by impregnation
  • Characterizes the fillers in detail by standard and up-to-date methods, e.g. STEM-EDX, AAS, ICP-OES etc.
  • Discusses in depth the effect of those fillers upon the curing properties, mechanical and dynamic mechanical parameters, electrical conductivity, and dielectric and microwave characteristics of elastomer-based composites
  • Considers the electromagnetic interference-shielding effectiveness, attenuation, and reflection of electromagnetic wave by the elastomer-based composites comprising various types of hybrid fillers, ferrites, and ceramics
  • Takes into consideration the environmental aspects, showing that the pyrolysis-cum-water vapor is a suitable and environmentally friendly method for conversion of the waste green tires into useful carbon-silica hybrid filers

Summary

Elastomer-Based Composite Materials: Mechanical, Dynamic, and Microwave Properties and Engineering Applications is focused on elastomer-based composite materials comprising different types of reinforcing fillers.

The book provides an informative examination of the possibilities for broadening the engineering applications of elastomer composites through using various types of hybrid fillers, ferrites, and ceramics, and also examines their synthesis and characterization. It discusses new hybrid fillers that have been synthesized by different techniques, e.g. impregnation of different substrates (carbon black, conductive carbon black, activated carbons, etc.) with silica or magnetite. These new fillers have been thoroughly characterized by standard techniques and by up-to-date methods, such as energy dispersive X-ray spectroscopy in scanning transmission electron microscopy (STEM-EDX), atomic absorption spectroscopy (AAS), and inductively coupled plasma–optical emission spectroscopy (ICP-OES). The effect of those fillers upon the curing properties, mechanical and dynamic parameters, electrical conductivity, and dielectric and microwave characteristics of elastomer-based composites is discussed in detail in this volume. The book also covers the influence of various types of ceramics (SiC, B4C, and TiB2) and barium and strontium hexaferrites upon the aforementioned properties of rubber composites in conjunction with a view toward solutions for environmental problems caused by waste tires. The book shows that pyrolysis-cum-water vapor is a suitable and environmentally friendly method for the conversion of the waste green tires into useful carbon-silica hybrid fillers. The properties of elastomer-based composites comprising different types of nanostructures (fullerenes, carbon nanotubes, graphene nanoplatelets), modified activated carbons, and calcined kaolin are also discussed. Special attention is paid to composites with lower levels of zinc oxide.

The volume provides an abundance of knowledge on the detailed characterization of these fillers and on the curing, mechanical, dynamic mechanical, and dielectric and microwave properties of the elastomeric composites. The book surveys the most recent research activities of the authors, which will make it a vital reference source for scientists in both the academic and industrial sectors, as well as for individuals who are interested in rubber materials. It will be very useful for students, especially PhD students, scientists, lecturers, and engineers working or doing research in the field of polymer materials science, elastomer-based composites and nanocomposites and their engineering applications in the production of microwave absorbers and electromagnetic waves shielding materials, materials for electronics devices and telecommunications.

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