Advances in Ceramic Matrix Composites IX,9781574982077

Advances in Ceramic Matrix Composites IX

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Edition: 1st
ISBN13: 9781574982077
ISBN10: 1574982079
Format: Paperback
Pub. Date: 2003-09-28
Publisher(s): Wiley-American Ceramic Society
List Price: $165.89

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Summary

Ceramic-matrix composites are strong, tough, environmentally stable, light in weight, and have the ability to withstand high operating temperatures. These characteristics make them viable candidate materials for high temperature structural applications. Twenty three are included in this volume describing the latest developments in the areas of ceramic fibers, processing and fabrication, oxide and non-oxide composites, carbon-carbon composites, geopolymer composites, mechanical behavior, corrosion and environmental effects, characterization, fiber-matrix interface, design of composites, and thermal/environmental barrier coatings.

Author Biography

Narottam P. Bansal, PhD, is Senior Research Scientist at the NASA Glenn Research Center, where he has conducted research on glasses, ceramics, and composites since 1985. In addition to publishing more than 230 papers, Dr. Bansal holds seven patents and is the author or editor of five books and 32 conference proceedings.

J. P. Singh is the editor of Advances in Ceramic Matrix Composites IX, published by Wiley.

Waltraud M. Kriven is Professor of Materials Science and Engineering at the University of Illinois at Urbana-Champaign. Professor Kriven received her Ph.D. in 1976 in Solid State Chemistry from the University of Adelaide in South Australia and her B.Sc. (Honors) and Baccalaureate degrees in Physical Chemistry, Inorganic Chemistry, and Biochemistry from the same institute. She is an internationally recognized expert in the areas of phase transformations in inorganic compounds and their applications in structural ceramic composites. She has authored or co-authored over 240 research publications, and fourteen books to date.

Hartmut Schneider is the head of the "Structural and Functional Ceramics" group at the German Aerospace Center (DLR), Institute of Materials Research, Köln (Germany) and is a Professor of Applied Mineralogy at the University of Hannover (Germany). He has been working on different topics of high pressure mineralogy and on refractory and ceramic materials. He is renowned for his research work in crystal chemistry, ceramics and composites of mullite, an alumino silicate of the stoichiometric composition 3Al2O3·2SiO2. Professor Schneider has published over 200 scientific and technical papers. His list of awards includes the Japanese Government Research Award, the Lilienthal Award, and the Fellowship of the American Ceramic Society.

Table of Contents

Preface ix
Ceramic Fibers
Fine Ceramic Fibers: From Microstructure to High Temperature Mechanical Behavior
3(24)
M.-H. Berger
Fabrication and Grain Growth in YAG and Mullfite Fibers
27(20)
W.M. Kriven, K. Jurkschat, B.R. Johnson, W. Yoon, and C. Chiritescu
Raman and Rayleigh Imaging of the Corrosion Process of SiC Fibers
47(10)
M. Havel and Ph. Colomban
Processing and Design
The Use of Electrophoretic Deposition for the Fabrication of Ceramic and Glass Matrix Composites
57(10)
A.R. Boccaccini and C. Kaya
Fabrication of Reaction Sintered SiC Based Materials with Nanosize Particle Infiltration
67(14)
SP. Lee, J.O. Jin, and A. Kohyama
Production of Al2O3-Ti3Al Cermets by the Pressureless Reaction Sintering Process
81(8)
E. Rocha-Rangel, C.L. Echeverria, RL. Hernández, V.S. Cortes, and G.M. Gonzalez
Production of Multilayer Ceramic Laminates with Improved Mechanical Properties
89(14)
M. Bertoldi, M. Patemoster, and V.M. Sgiavo
Designing with C/C-SiC Composites
103(22)
W. Krenkel
Preparation and Characterization of La-In-Mg-O and La-In-Ca-O Ceramic Matrix Composites
125(16)
C.-F. Kao and C.-T. Wu
Oxide Matrix Composites
Development of Si3N4/BAS Ceramic Matrix Composite for Engineering Applications
141(22)
F.Yu, Y. Fang, and K.W. White
Interfacial Behavior of Two Oxide/Oxide Composites
163(12)
N. Du Souich,Y. Fang, U. Wilkund, and K.W. White
Geopolymers and Geopolymer Matrix Composites
What are These Things Called Geopolymers? A Physicochemical Perspective
175(12)
K.J.D. MacKenzie
Effect of Blast Furnace SlagAddition on Microstructure and Properties of Metakaolinite Geopolymeric Materials
187(24)
C.K. Yip, G.C. Lukey, and J.S.J. van Deventer
Composite Cold Ceramic Geopolymer in a Refractory Application
211(16)
D.C. Comrie and W.M. Kriven
Microstructure and Michrochemistry of Fully-Reacted Geopolymers and Geopolymer Matrix Composites
227(26)
W.M. Kriven, J.L. Bell, and M. Gordon
Mechanical Properties
Mechanical Behavior of Carbon-Carbon Composites at Room and Elevated Temperatures
253(14)
N. Sundaram, R.W.Trice, and T.J. Bowman
Effect of Thermal Exposure on Microstructural and Mechanical Characteristics of Reaction Sintered SiC Based Materials
267(10)
S.P. Lee, J.O. Lin, J.K. Lee, B.H. Min, H.K. Yoon, J.S. Park, Y. Katoh, and A. Kohyama
Fatigue Life and Crack Growth Behavior of Al18B4O33 Whisker Reinforced Composite
277(8)
W.J. Park, Y.B. Choi, S.C. Huh, and H.K. Yoon
Microstructure and Mechanical Properties of Alumina-Copper Composites
285(14)
S. Menon and W.G. Fahrenholtz
Characterization
Characterization of Zirconium Diboride-Molybdenum Disilicide Ceramics
299(10)
A.L. Chamberlain, W.G. Fahrenholtz, G.E. Hilmas, and D.T. Ellerby
Sliding Wear Characteristics and Processing of MoSi2 Composites
309(8)
Y.H. Park H.K. Yoon, S.P. Lee, W.J. Park, Y.B. Choi and S.C. Huh
Enhanced Wetting of Carbon-Coated Alumina Substrates by Aluminum Alloys
317(14)
E. Rocha-Rangel, P.F. Becher and E. Lara-Curzio
Thermal/Environmental Barrier Coatings
Thermal Conductivity and Stability of HfO2-Y2O3 and La2Zr2O7 Evaluated for 1650°C Thermal/Environmental Barrier Coating Applications
331(14)
D. Zhu, N.P. Bansal, and R.A. Miller
Index 345

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