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Carbon Fibers Filaments and Composites

  • Book
  • © 1990

Overview

Editors:
  1. J. L. Figueiredo

    1. University of Porto, Porto, Portugal

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  2. C. A. Bernardo

    1. University of Minho, Minho, Portugal

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  3. R. T. K. Baker

    1. Auburn University, Auburn, USA

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  4. K. J. Hüttinger

    1. University of Karlsruhe, Karlsruhe, Germany

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Part of the book series: NATO Science Series E: (NSSE, volume 177)

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Table of contents (24 chapters)

  1. Front Matter

    Pages i-xii
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  2. Fibers

    1. Front Matter

      Pages 1-1
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    2. Carbon Fibres — Present State and Future Expectations

      • E. Fitzer
      Pages 3-41

    3. Pitch and Mesophase Fibers

      • Dan D. Edie
      Pages 43-72

    4. Vapor-Grown Carbon Fibers

      • G. G. Tibbetts
      Pages 73-94

    5. The Growth of Vapor-Deposited Carbon Fibres

      • P. Gadelle
      Pages 95-117

    6. Structure and Properties of Carbon Fibres

      • D. J. Johnson
      Pages 119-146

    7. Surface Properties of Carbon Fibres

      • P. Ehrburger
      Pages 147-161

    8. Critical Issues for Carbon Fibers

      • Dan D. Edie
      Pages 163-166

  3. Composites

    1. Front Matter

      Pages 167-167
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    2. Carbon Fibres and Composites

      • E. Fitzer
      Pages 169-219

    3. High Performance Carbon Fibre Composites with Thermoplastic Matrices

      • W. Huettner, R. Weiss
      Pages 221-243

    4. The Fundamentals of Chemical Interactions in Composite Interfaces

      • K. J. Hüttinger
      Pages 245-261

    5. Surface Modification of Carbon Fibres by Plasma Polymerization

      • W. Weisweiler, K. Schlitter
      Pages 263-274

    6. Potential of Carbon/Carbon Composites as Structural Materials

      • W. Huettner
      Pages 275-300

    7. Theoretical and Practical Aspects of Liquid-Phase Pyrolysis as Basis of the Carbon Matrix of CFRC

      • K. J. Hüttinger
      Pages 301-325

    8. Protective Layers for Special Types of Composites

      • P. Ehrburger
      Pages 327-336

    9. Carbon Based Materials in Medical Applications

      • W. Huettner, L. E. Claes
      Pages 337-365

    10. Fibre Reinforced Ceramic-Matrix Composites

      • B. Rand, R. J. Zeng
      Pages 367-398

    11. Critical Issues Concerning Carbon Fibre Reinforced Composites

      • B. Rand
      Pages 399-401
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Keywords

About this book

Conventional synthetic materials, like metals, ceramics or glass, are usually isotropic substances, and their suitability for structural applications is achieved by morphological design and combination in the macroscopic scale. However, in modem engineering this is often not acceptable. As an alternative, the use of non-homogeneous, anisotropic materials, with significant stiffness and strength only in the directions these mechanical properties are really needed, can lead to enormous material (and weight) savings. This is the case of multiphase systems called composite materials. In these composites, different material parts are added and arranged geometrically, under clearly designed and controlled conditions. Usually, a structure of fibers provides strength and stiffness and a matrix helds them together, whilst providing the geometric form. Carbon fibers are among the high-performance fibers employed in these advanced structural composites, which are profoundly changing many of today's high technology industries. New research and development challenges in this area include upgrading the manufacturing process of fibers and composites, in order to improve characteristics and reduce costs, and modifying the interfacial properties between fibers and matrix, to guarantee better mechanical properties. The interdisciplinary nature of this "new frontier" is obvious, involving chemistry, materials science, chemical and mechanical engineering. Other topics, which more often are treated separately, are also important for the understanding of the processes of fiber production. Carbon filaments is one such topic, as the study of their mechanisms of nucleation and growth is clearly quite relevant to the production of vapour-grown carbon fibers.

Editors and Affiliations

  • University of Porto, Porto, Portugal

    J. L. Figueiredo

  • University of Minho, Minho, Portugal

    C. A. Bernardo

  • Auburn University, Auburn, USA

    R. T. K. Baker

  • University of Karlsruhe, Karlsruhe, Germany

    K. J. Hüttinger

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