Microstructure-property correlations...
Kanyanta, Valentine.

 

  • Microstructure-property correlations for hard, superhard, and ultrahard materials[electronic resource] /
  • 紀錄類型: 書目-語言資料,印刷品 : Monograph/item
    杜威分類號: 620.112
    書名/作者: Microstructure-property correlations for hard, superhard, and ultrahard materials/ edited by Valentine Kanyanta.
    其他作者: Kanyanta, Valentine.
    出版者: Cham : : Springer International Publishing :, 2016.
    面頁冊數: vii, 239 p. : : ill. (some col.), digital ;; 24 cm.
    Contained By: Springer eBooks
    標題: Hard materials - Microstructure.
    標題: Materials Science.
    標題: Characterization and Evaluation of Materials.
    標題: Nanotechnology and Microengineering.
    標題: Nanochemistry.
    標題: Materials Engineering.
    ISBN: 9783319292915
    ISBN: 9783319292892
    內容註: Chapter 1. Hard, Superhard and Ultrahard Materials - An Overview -- Chapter 2. Applications for Super-hard and Ultra-hard materials -- Chapter 3. Microstructure Property relations in Superhard Materials -- Chapter 4 Measurements of Hardness and other Mechanical Properties of Hard and Superhard Materials and Coatings -- Chapter 5. Fracture Toughness of Hard and Superhard Materials Testing methods and limitations -- Chapter 6. Superhard and Ultrahard Nano-Structured Materials and Coatings -- Chapter 7. Future of hard and superhard materials design, processing and manufacturing.
    摘要、提要註: This book discusses microstructure-property correlations and explores key microstructure features and how they affect the properties of a material. The authors discuss the effect of manufacturing and processing routes on microstructure and properties. They identify appropriate microstructure and mechanical characterization techniques essential for developing accurate microstructure-property relationships. The techniques include high resolution imaging methods and properties measurements such as hardness, strength, elastic modulus, and fracture toughness. Current and future trends in hard and superhard material design are revealed by the authors, including nanostructured materials, biomimicry, and novel manufacturing technologies.
    電子資源: http://dx.doi.org/10.1007/978-3-319-29291-5
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