Part 1 |
1. |
Preface |
iii |
2. |
Session 1 – Ceramics |
1 |
2.1 |
Fabrication of Fiber-Reinforced Composites by Chemical Vapor Infiltration: D. P. Stinton, O. J. Schwartz and J. C McLaughlin |
3 |
2.2 |
Transport Properties of Ceramic Composites: T.L. Starr |
11 |
2.3 |
Investigation of Properties and Performance of Ceramic Composite Components: K. L. Relfsnider, W.W. Stinchcomb, L. Oteskuk, S.S. Lee |
19 |
2.4 |
Development of Nondestructive Evaluation Methods and Prediction of Effects of Flaws on the Fracture Behavior of Structural Ceramics: W. A. Ellingson, J.P. Singh, E. A. Sivers, D. L. Holloway, T.D. Jacobs, S. L. Dieckman, and D. Singh |
29 |
2.5 |
Engineering-Scale Development of the Vapor-Liquid-Solid (VLS) Process for the Production of Silicon Carbide Fibrils: W.E. Hollar, T.P DeAngelis, C.T. Hau, and F. Scardino |
41 |
2.6 |
Hydrogen Production Using Inorganic Membranes: D.E. Fain and G.E. Rottinger |
51 |
2.7 |
Carbon Fiber Composite Molecular Sieves: T. D. Burchell |
63 |
2.8 |
Advanced Materials, Electrochemical Studies, and Electrochemical Catalysts Studies for Solid Oxide Fuel Cells: T.R. Armstrong, J.L. Bates, L.R. Pederson, P.J. Raney, J. W. Stevenson, and W.J. Weber |
71 |
2.9 |
Testing of Full Size Fiber Reinforced Hot-Gas Filters Fabricated by Chemical Vapor Deposition: R.G. Smith, J.H. Eaton, B.L. Weaver, and J.L. Kahnke |
79 |
2.10 |
Advanced Electrolytes and Synthesis of Advanced Catalysts and Membrane Materials: T.R. Armstrong, J. L. Bates, G.W. Coffey, J.J. Kingsley, L.R. Pederson, W.J. Weber, and G.E. Youngblood |
89 |
Part 2 |
3. |
Session II – Ceramics and New Alloys |
97 |
3.1 |
Modeling of Fibrous Preforms for CVI Fabrication: T.L. Starr |
99 |
3.2 |
Development of Oxidation-Resistant Interface Coatings: R. A. Lowden, O.J. Schwarz, and D.P. Stinton |
105 |
3.3 |
Joining of SIC Ceramics and SiC/SiC Composites: B.H. Rabin |
117 |
3.4 |
Densification of Nano-size Powders: W. Chen, S.G. Malghan, S.J. Dapkunas, G. Piermarini, A. Pechenik, and S. C. Danforth |
125 |
3.5 |
Activation and Micropore Structure Determination of Carbon-Fiber Composite Molecular Sieves: F. Derbyshire, Y.Q. Fei, M. Jagtoyen, G. Kimber, M. Matheny, and T.D. Burchell |
137 |
3.6 |
Ceramic Catalyst Materials: A.G. Sault, T.J. Gardner, S. Srinivassan, A. Hanprasopwattanna, and A.K. Datye: |
145 |
3.7 |
Advanced Ceramic Materials and Electrochemical Processes at Interfaces: T.R. Armstrong, J.L. Bates, L. R. Pederson, J.W. Stevenson, and C.F. Windisch, Jr. |
155 |
3.8 |
Microwave-Assisted Chemical Vapor Deposition: M.A. Janney |
163 |
3.9 |
Effect of Heat Treatment Temperature on Creep-Rupture Properties of FexAL-Based Alloys: C.G. McKamey and P.J. Maziasz |
169 |
3.10 |
In-Situ Fireside Corrosion Testing: J.L. Blough, M.T. Krawchuk, and S.F. Van Weele |
185 |
3.11 |
Tensile Properties of As-Cast FexAL-Based Alloys: S. Viswanthan, C.G. McKamey, and P.J. Maziasaz |
195 |
Part 3 |
3.12 |
Weldability of Iron Aluminides: G. M. Goodwin, P.J. Maziasz, C.J. McKamey, J. H. DeVan, and V.K. Sikka |
211 |
3.13 |
Electro-Spark Deposited Coatings for Fossil Energy Environments: R.N. Johnson |
219 |
3.14 |
High-Temperature Corrosion of Iron Aluminides: K. Natesan and W.D. Cho |
227 |
3.15 |
Elastic Behavior of Nickel Aluminide and Iron Aluminide-Based Intermetallics: M. N. Srinivasan, S. Manjigani, A. Wolfenden, and V. K. Sikka |
239 |
4. |
Session III – Workshop on New Materials Development and Applications |
255 |
5. |
Session IV – Intermetallics and Advanced Austenitics |
259 |
5.1 |
Low-Aluminum Content Iron-Aluminum Alloys: V. K. Sikka |
261 |
5.2 |
The Influence of Processing on Microstructure and Properties of Iron Alumindes: R. N Wright and J.K. Wright |
279 |
5.3 |
Fracture Behavior of the FE-Sal Alloy FAP-Y: D.J. Alexander |
287 |
5.4 |
Investigation of Moisture-Induced Embrittlement of Iron Aluminides: A. Castagna and N. S. Stoloff |
297 |
5.5 |
Environmental Effects on Iron Aluminide: J. H. DeVan, P.F. Tortorelli, and M.J. Bennett |
309 |
Part 4 |
5.6 |
Localized Corrosion and Stress Corrosion Cracking Characteristics of `Low-Aluminum-Content Iron Aluminide Alloys: J.G. Kim and R. A. Buchanan |
321 |
5.7 |
Interactions Between Creep and Corrosion in Alloy 800: K. Natesan |
331 |
5.8 |
Fundamental Study of Aluminizing and Chromizing Processes: N. He, G. Wang, and R. A. Rapp |
343 |
5.9 |
Development of a Modified 210 Stainless Steel: R. W. Swindeman |
355 |
5.10 |
Investigation on the Weldability of High Temperature Alloy Tubing Materials: C.D. Lundin and C.Y.P. Qiao |
365 |
5.11 |
Cr2Nb-Based Alloy Development: C.T. Liu, J.A. Horton, and C. A. Carmichael |
377 |
5.12 |
Alloying Effects on the High-Temperature Oxidation Resistance of Cr-Cr2-Nb: Pf Tortorelli and J.H. DeVan |
391 |
5.13 |
Fracture Behavior of Cr2Nb-Based Intermetallics: J.A. Cook, P.K. Liaw and C.T. Liu |
401 |