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Silicon Carbide Ceramics. Structure, Properties and Manufacturing. Elsevier Series in Advanced Ceramic Materials

  • Book

  • January 2023
  • Elsevier Science and Technology
  • ID: 5646456

It has been three decades since the last significant book was published on SiC ceramics (other than those books that specifically focus on SiC semiconductors). Thirty years has been a long time in the world of SiC ceramics. In the early 1990s, SiC was still a relatively obscure ceramic even within the materials community, prominent only as an industrial abrasive (carborundum), and a refractory (Chapter 7). This has all changed dramatically in the 21st century. For example,

  • As a semiconductor, SiC greatly surpasses silicon in performance, especially in high-power systems. Its market penetration since its launch in 2001 has been exponential. Single-crystal SiC semiconductors are covered in Chapter 3
  • Millions of military and paramilitary personnel have globally been protected with lightweight SiC body armour, since the late 1990s. Body armour is covered in Chapters 4 and 5
  • SiC-SiC is a composite material close to commercialization that makes possible high-temperature load-bearing applications hitherto only able to be hypothesized: from ultra-high-temperature jet turbine blades to advanced nuclear fuel encapsulation, the possibilities are very promising. Aerospace applications are covered in Chapter 9
  • Other key areas that are addressed are blast-resistant SiC vehicle/vessel armour in Chapter 8 and wear-resistant SiC ceramics in Chapter 6
  • Silicon Carbide Ceramics will be an essential reference resource for academic and industrial researchers and materials scientists and engineers working in ceramic materials for the semiconductor, defence, aerospace, wear resistance and refractory fields�

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Table of Contents

1. Introduction and Applications of SiC Ceramics 2. Structure and Properties of SiC Ceramics 3. SiC Single Crystal Semiconductors 4. Hot Pressed SiC (HPSC) 5. Direct Sintered (Pressureless Sintered) SiC: DSSC 6. Reaction Sintered SiC (RSSC) 7. Silicon Nitride-Bonded SiC (SNBSC) 8. Glass-Bonded SiC (GBSC) 9. SiC-Fibre Reinforced SiC Composites (SiC/SiC)

Authors

Andrew J. Ruys University of Sydney, Australia. Professor Ruys was a founding Director of Biomedical Engineering at the University of Sydney, Australia, between 2003 and 2018. He graduated with a BE in Ceramic Engineering in 1987 and a PhD in Ceramic Engineering in 1992 from the University of NSW, Australia. He has worked in bioceramics and advanced ceramics research for over 30 years, and has been an active participant as researcher, educator and industrial consultant for this entire time. He is not only an experienced researcher in bioceramics (ceramics for biomedical applications) but has also been an industrial consultant in the world-changing applications of armor ceramics, advanced ceramics in wear-resistance linings in mineral processing, and numerous other important industrial applications of ceramics. He has published more than 100 journal articles, over 70 conference papers, seven books and has listed 5 patents. He serves on three editorial boards and is a reviewer for 24 scientific journals. He has been teaching bioceramics, biomaterials, and medical device technology for three decades, and has also taught on dental materials, industrial ceramics, chemistry, physics, and general engineering.