Exploring advanced ceramic coatings and ultra-high temperature ceramic materials, this issue brings readers up-to-date with important new and emerging findings, materials, and applications. The nineteen papers in this issue originate from two symposia and one focused session held in January 2012, during the 36th International Conference on Advanced Ceramics and Composites (ICACC). With contributions from leading ceramics and materials researchers from around the world, this issue explores the latest advances and key challenges in advanced thermal and environmental coating processing and characterizations, advanced wear corrosion-resistant, nanocomposite, and multi-functional coatings, thermal protection systems, and more.
Зміст
Preface ix
Introduction xi
ADVANCED THERMAL AND ENVIRONMENTAL COATING PROCESSING ANDCHARACTERIZATIONS
Multilayered Thermal Barrier Coating Architectures for High Temperature Applications 3
Douglas E. Wolfe, Michael P. Schmitt, Dongming Zhu, Amarendra K.Rai, and Rabi Bhattacharya
Foreign Object Damage (FOD) Behavior of EB-PVD Thermal Barrier Coatings (TBCs) in Airfoil Components 19
Jennifer Wright, D. Calvin Faucett, Matt Ayre, and Sung R.Choi
Solid Particle Erosion of Thermal Spray and Physical Vapour Deposition Thermal Barrier Coatings 37
F. Cernuschi, C. Guardamagna, L. Lorenzoni, S. Capelli, F.Bossi, R. Vaßen, and K. von Niessen
Effect of Hard Thin Film Coatings on Tribochemical Film Behaviorunder Lubricated Sliding Contact 47
C. Lorenzo-Martin, O. O. Ajayi, S. Torrel, N. Demas and G. R.Fenske
Rare Earth Oxides Pyrochlore Compounds by Soft Chemistry57
A. Joulia, E. Renard, D. Tchou-Kien, M. Vardelle, and S.Rossignol
Degradation of (Ni.Pt)AI Coatings by Mixture of Sodium and Potassium Sulfate at 950°C 67
Le Zhou, Sriparna Mukherjee, and Yongho Sohn
Original In-Situ Method to Quantify the Si C Active Corrosion Rate and Active/Passive Transition in Ar/02 and Ar/H20 Gas Mixturesat Very High Temperatures 77
Mathieu Q. Brisebourg, Bernard Boilait, Francis Rebillat, and Francis Teyssandier
Silicon Carbide Nanotube Oxidation at High Temperatures 89
Nadia Ahlborg and Dongming Zhu
ADVANCED WEAR-CORROSION RESISTANT, NANO-COMPOSITE ANDMULTI-FUNCTIONAL COATINGS
Evaluations of Multilayer Coatings for Galvanic Corrosion Resistance Applications–Oxide and Nitride Coatings on Carbon Steel 101
C. Qu, R. Kasica, R. Wei, E. Mc Carty, J. H. Fan, D. D. Edwards, G. Wynick, L Lin, Y. Liu, R. E. Miller, and X. W. Wang
Acoustic Field Assisted Drying of Electrophoretically Deposited Colloidal Coatings 115
Changzheng Ji and Houzheng Wu
THERMAL PROTECTION SYSTEMS
Testing of Candidate Rigid Heat Shield Materials at LHMEL forthe Entry, Descent, and Landing Technology Development Project129
Steven Sepka, Matthew Gasch, Robin A. Beck, and Susan White
Failure Mechanism of R-Type Temperature Sensor in Extreme Environments 157
Hongy Lin and Eric Allain
MATERIALS FOR EXTREME ENVIRONMENTS
Protection against Oxydation by CVD or SPS Coatings of Hafnium Carbide and Silicon Carbide on Carbon/Carbon Composites 163
A. Allemand, Y. Le Petitcorps, O. Szwedek, J. F. Epherre, N.Teneze, and P. David
Properties of Hot-Pressed Ti2AIN Obtained by SHS Process171
L. Chlubny, J. Lis, M. M. Bucko, and D. Kata
A Comparative Study of Decomposition Kinetics in Max Phases at Elevated Temperature 179
I. M. Low and W. K. Pang
The Hardness of Zr B2 between 1373K and 2273 K 187
Jianye Wang, E. Feilden-lrving, Luc J. Vandeperre, and F.Giuliani
Microstructural Analysis of a C/Zr C Composites Produced by Melt Infiltration 197
Linhua Zou, Sergey Prikhodko, Timothy Stewart, Brian Williams, and Jenn-Ming Yang
TECHNOLOGIES FOR INNOVATIVE SURFACE COATINGS
Interactions between Amorphous Carbon Coatings and Engine Oil Additives: Prediction of the Friction Behavior using Optimized Artificial Neural Networks 209
Edgar Schulz, Thilo Breitsprecher, Yashar Musayev, Stephan Tremmel, Tim Hosenfeldt, Sandra Wartzack, and Harald Meerkamm
Control of Oxygen Content with Oxygen Gas Introduction in Cr(N, 0) Thin Films Prepared by Pulsed Laser Deposition 225
K. Suzuki, T. Endo, T. Fukushima, A. Sato, T. Suzuki, T.Nakayama, H. Suematsu, and K. Niihara
Author Index 235
Про автора
Dongming Zhu is a senior Materials Research Engineer at Army Research Laboratory, Vehicle Technology Directorate, and Durability and Protective Coatings Branch of Structures and Materials Division, at NASA Glenn Research Center. His expertise covers the areas of thermal conductivity, lattice defects and transport, high temperature oxidation, high-heat-flux testing, and mechanical behavior of ceramic coating systems, with an emphasis on experimental investigation and analytical modeling of processing, thermal fatigue and fracture behavior of advanced protective coatings and composites. His major contributions include the development of low conductivity thermal barrier coatings for turbine airfoil applications, 1650°C thermal/environmental barrier coatings for Si C/Si C ceramic matrix composite turbine vane and combustor liner applications. He has authored more than 100 archival publications and three patents. He is a member of the American Ceramic Society and ASM, International, has been a lead organizer for several International Symposia. He is currently the Chair-elect of the Engineering Ceramic Division of the American Ceramic Society, and an associate editor of the International Journal of Applied Ceramic Technology. He has received several awards from NASA and professional societies. He received his Ph.D. degree in Chemical Engineering and Materials Science from the University of Minnesota in 1996.
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