Mechanical Properties and Performance of Engineering Ceramics and Composites IV. Volume 30, Issue 2. Ceramic Engineering and Science Proceedings

  • ID: 2171968
  • Book
  • 348 Pages
  • John Wiley and Sons Ltd
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Mechanical Properties and Performance of Engineering Ceramics and Composites IV

Ceramic Engineering and Science Proceedings

Volume 30, Issue 2, 2009

Edited by

Dileep Singh

Waltraud M. Kriven

Volume Editors

Dileep Singh

Jonathan Salem

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Preface ix

Introduction xi

MECHANICAL PROPERTIES AND PERFORMANCE

R&D of Advanced Ceramics Activities in China and Shanghai Institute of Ceramics Chinese Academy of Sciences (SICCAS) 3Dongliang Jiang

Fabrication of Silicon Nitride–Multi–Walled Nanotube Composites by Direct In–Situ Growth of Nanotubes on Silicon Nitride Particles 23Amit Datye, Kuang–Hsi Wu, S. Kulkarni, H. T. Lin, J. Schmidt, D. Hunn, Wenzhi Li, and Latha Kumari

Synthesis of Yttria Stabilized Zirconia (3YTZP)–Multi–Walled Nanotube (MWNTs) Nanocomposite by Direct In–Situ Growth of MWNTs on Zirconia Particles 39Amit Datye, Kuang–Hsi Wu, V. Monroy, S. Kulkarni, S. Amruthaluri, H. T. Lin, J. Vleugels, K. Vanmeensel, Wenzhi Li, and Latha Kumari

Processing, Microstructure and Mechanical Properties of Ultra High Temperature Ceramics Fabricated by Spark Plasma Sintering 53Amit Datye, Kuang–Hsi Wu, Srinivas Kulkarni, H. T. Lin, and J. Vleugels

Fabrication of Carbon Fiber Reinforced Ceramic Matrix Composites Potential for Ultra–High–Temperature Applications 67S. M. Dong, Z. Wang, Y. S. Ding, X. Y. Zhang, P. He, and L.Gao

Estimation of Sintering Warpage of a Constrained Ceramic Film 73Kais Hbaieb

Long–Term Temperature Gradient Stress Relaxation Testing and Modeling of Ceramic Insulation Materials 83James G. Hemrick, Edgar Lara–Curzio, and James F. King

From Conventional to Fast Sintering of Zirconia Toughened Alumina Nanocomposites 91Enikö Volceanov, Gheorghe Virgil Aldica, Adrian Volceanov, Dan Minai Constantinescu, and §tefania Motoc

Fatigue Characterization of a Melt–Infiltrated Woven HI–NIC–S/BN/SIC Ceramic Matrix Composite (CMC) Using a Unique Combustion Test Facility 103Ted T. Kim, Shankar Mall, and Larry P. Zawada

Effect of SiC Content and Third Phase Metal Additions on Thermal and Mechanical Properties of Si/SiC Ceramics 117A. L. Marshall, P. Karandikar, A. L. McCormick, and M. K. Aghajanian

Compressive Strength Degradation in ZrB2–SiC AND ZrB2–SiC–C Ultra High Temperature Composites 127J. Ramirez–Rico, M. A. Bautista, J. Martinez–Fernandez, and M. Singh

SiC Nanometer Sizing Effect on Self Healing Ability of Structural Ceramics 137Wataru Nakao, Shihomi Abe, and Kotoji Ando

Creep and Fatigue Behavior of Ml SIC/SIC Composites at Temperature 143G. Ojard, Y. Gowayed, G. Morscher, U. Santhosh, J. Ahmad, R. Miller, and R. John

Self–Crack–Healing Behavior Under Combustion Gas Atmosphere 155Toshio Osada, Wataru Nakao, Koji Takahashi, and Kotoji Ando

Selection of a Toughened Mullite for a Miniature Gas Turbine Engine 167Barry A. Bender and Ming–Jen PanComparison in Foreign Object Damage between SiC/SiC and Oxide/Oxide Ceramic Matrix Composites 177Sung R. Choi, Donald J. Alexander, and David C. Faucett

Ti3(Si,AI)C2 for Nuclear Application: Investigation of Irradiation Effects Induced by Charged Particles 189Marion Le Flem, Xingmin Liu, Sylvie Doriot, Theodore Cozzika, Fabien Onimus, Jean–Luc Bechade, Isabelle Monnet, and Yanchun Zhou

Heavy Ions Induced Damages in Ti3SiC2: Effect of Irradiation Temperature 199J.C. Nappe, Ph. Grosseau, B. Guilhot, F. Audubert, M. Beauvy, and M. Benabdesselam

Titanium Carbide and Silicon Carbide Thermal Conductivity Under Heavy Ions Irradiation 205J. Cabrerò, F. Audubert, P. Weisbecker, A. Kusiak, and R. Pailler

Corrosion Resistance of Ceramics in Vaporous and Boiling Sulfuhc Acid 219C.A. Lewinsohn, H. Anderson, M. Wilson, M. Sunderberg, and J. Brangefalt

Unlubricated Clutch System Based on the Function Relevant Friction Pairing Advanced Non–Oxide Ceramic vs. Steel 227A. Albers, S. Ott, and M. Mitariu

Nondestructive Inspection of Ceramic Bearing Balls Using Phased Array Ultrasonics 233J.G. Sun, E.R. Koehl, S. Steckenrider, Charlotte Vieillard, and Ton Bayer

Thermal Expansion Coefficient of Si02–Added Leucite Ceramics 241J. P. Wiff, Y. Kinemuchi, S. Naito, A. Uozumi, and K. Watari

GEOPOLYMERS

Inorganic Polymers (Geopolymers) as Advanced Materials 251Kenneth J.D. MacKenzie

Properties and Performance of Si–Rich Geopolymer Binder Systems 263Kwesi Sagoe–Crentsil

Cold Setting Inorganic Networks Including Phosphates 271Christian Kaps and Mark Hohmann

Properties of Phosphorus–Containing Geopolymer Matrix and Fiber–Reinforced Composite 283Oleg Bortnovsky, Petr Bezucha, Jiri Dédecek, Zdenék Sobalik, Véra Vodickovà, Dora Kroisovä, Pavel Roubicek, and Martina Urbanovà

Formation of an Iron–Based Inorganic Polymer (Geopolymer) 301Jonathan L. Bell and Waltraud M. Kriven

Consolidated Geo–Materials from Sand or Industrial Waste 313E. Prud′homme, P. Michaud, E. Joussein, C. Peyratout, A. Smith and S. Rossignol

Alkali Activated Aerogels 325Forrest Svingala and Benjamin Varela

Author Index 335

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Jonathan Salem
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