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Self-Healing Nanotextured Vascular Engineering Materials

  • Alexander L. Yarin
  • Min Wook Lee
  • Seongpil An
  • Sam S. Yoon
Book

Part of the Advanced Structured Materials book series (STRUCTMAT, volume 105)

Table of contents

  1. Front Matter
    Pages i-xiv
  2. Alexander L. Yarin, Min Wook Lee, Seongpil An, Sam S. Yoon
    Pages 1-21
  3. Materials and Fundamental Physicochemical Phenomena

    1. Front Matter
      Pages 23-23
    2. Alexander L. Yarin, Min Wook Lee, Seongpil An, Sam S. Yoon
      Pages 25-36
    3. Alexander L. Yarin, Min Wook Lee, Seongpil An, Sam S. Yoon
      Pages 37-74
  4. Fabrication Methods

    1. Front Matter
      Pages 75-75
    2. Alexander L. Yarin, Min Wook Lee, Seongpil An, Sam S. Yoon
      Pages 77-119
    3. Alexander L. Yarin, Min Wook Lee, Seongpil An, Sam S. Yoon
      Pages 121-134
  5. Mechanical Behavior of Self-Healing Nanotextured Materials

    1. Front Matter
      Pages 135-135
    2. Alexander L. Yarin, Min Wook Lee, Seongpil An, Sam S. Yoon
      Pages 137-163
    3. Alexander L. Yarin, Min Wook Lee, Seongpil An, Sam S. Yoon
      Pages 165-194
  6. Self-Healing Nanotextured Materials for Corrosion Protection

    1. Front Matter
      Pages 229-229
    2. Alexander L. Yarin, Min Wook Lee, Seongpil An, Sam S. Yoon
      Pages 231-244
    3. Alexander L. Yarin, Min Wook Lee, Seongpil An, Sam S. Yoon
      Pages 245-251
    4. Alexander L. Yarin, Min Wook Lee, Seongpil An, Sam S. Yoon
      Pages 253-255
  7. Back Matter
    Pages 257-265

About this book

Introduction

This book gives an overview of the existing self-healing nanotextured vascular approaches. It

describes the healing agents used in engineering self-healing materials as well as the

fundamental physicochemical phenomena accompanying self-healing. This book also addresses

the different fabrication methods used to form core–shell nanofiber mats. The fundamental

theoretical aspects of fracture mechanics are outlined. A brief theoretical description of cracks

in brittle elastic materials is given and the Griffith approach is introduced. The fracture

toughness is described, including viscoelastic effects. Critical (catastrophic) and subcritical

(fatigue) cracks and their growth are also described theoretically. The adhesion and cohesion

energies are introduced as well, and the theory of the blister test for the two limiting cases of

stiff and soft materials is developed. In addition, the effect of non-self-healing nanofiber mats

on the toughening of ply surfaces in composites is discussed. The book also presents a brief

description of the electrochemical theory of corrosion crack growth. All the above-mentioned

phenomena are relevant in the context of self-healing materials.

Keywords

Self-healing materials Vascular materials Core-shell nanofibers Electrospinning Solution blowing Emulsion spinning Tensile test Bending Delamination Impact test Cracks Fatigue cracks Corrosion protection

Authors and affiliations

  • Alexander L. Yarin
    • 1
  • Min Wook Lee
    • 2
  • Seongpil An
    • 3
  • Sam S. Yoon
    • 4
  1. 1.Department of Mechanical and Industrial EngineeringUniversity of Illinois at ChicagoChicagoUSA
  2. 2.Institute of Advanced Composite MaterialsKorea Institute of Science and TechnologyJeollabuk-doKorea (Republic of)
  3. 3.Department of Mechanical and Industrial EngineeringUniversity of Illinois at ChicagoChicagoUSA
  4. 4.School of Mechanical EngineeringKorea UniversitySeoulKorea (Republic of)

Bibliographic information

  • DOI https://doi.org/10.1007/978-3-030-05267-6
  • Copyright Information Springer Nature Switzerland AG 2019
  • Publisher Name Springer, Cham
  • eBook Packages Chemistry and Materials Science
  • Print ISBN 978-3-030-05266-9
  • Online ISBN 978-3-030-05267-6
  • Series Print ISSN 1869-8433
  • Series Online ISSN 1869-8441
  • Buy this book on publisher's site
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