Ceramic fibers and coatings : advanced materials for the twenty-first century /
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| Imprint: | Washington, DC : National Academy Press, 1998. |
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| Description: | 1 online resource (xv, 94 pages) : illustrations. |
| Language: | English |
| Series: | Publication NMAB ; 494 Publication NMAB ; 494. |
| Subject: | |
| Format: | E-Resource Book |
| URL for this record: | http://pi.lib.uchicago.edu/1001/cat/bib/11098745 |
Table of Contents:
- CERAMIC FIBERS AND COATINGS; Copyright; Preface; Acknowledgments; Contents; Acronyms; Executive Summary; APPROACH; HIGH-TEMPERATURE CERAMIC FIBERS; Non-Oxide Ceramic Fibers; Oxide Ceramic Fibers; FIBER COATINGS; Coatings for Non-Oxide Fibers; Coatings for Oxide Fibers; RECOMMENDATIONS AND IMPACTS; DISCUSSION OF PRIORITIES; 1 Introduction ; APPROACH; POTENTIAL CERAMIC MATRIX COMPOSITE APPLICATIONS; COMPOSITE MATERIALS; CERAMIC FIBERS AND COATINGS; ENGINEERING REQUIREMENTS; REPORT ORGANIZATION; 2 Current and Future Needs ; IMPLEMENTATION OF NEW MATERIALS; Glass Matrix Composites.
- SiC Matrix CompositesOxide/Oxide Composites; Inhibited Carbon Matrix Composites; CERAMIC MATRIX COMPOSITE DESIGN AND LIFE PREDICTIONS; CERAMIC MATRIX COMPOSITE APPLICATIONS AND REQUIREMENTS; Energy Systems; Aerospace Systems; MANUFACTURING REQUIREMENTS; Reliability and Reproducibility of Fiber Supplies; Handleability and Processability; IMPLICATIONS FOR FIBER PROPERTIES; General Considerations; Fiber and Interface Requirements; 3 State of the Art in Ceramic Fiber Performance ; CANDIDATE FIBERS; Comparison of Fiber Categories; TEMPERATURE AND TIME DEPENDENCE OFPROPERTIES OF NON-OXIDE FIBERS.
- Strength and Stiffness as a Function of Test TemperatureRoom-Temperature Strength and Modulus as a Function of Aging; Thermal Conductivity (Diffusivity) and Electrical Conductivity (Resistivity) as a Function of Temperature and Aging History; Creep Behavior of Non-Oxide Fibers and Effects of Heat Treatment, Oxidation, and Aging; Rupture Behavior of Non-Oxide Fibers in Oxidizing and Non-Oxidizing Environments and the Effects of Heat Treatment and ... ; Microstructural Stability; TEMPERATURE AND TIME DEPENDENCE OF PROPERTIES OF OXIDE FIBERS; Strength and Stiffness as a Function of Test Temperature.
- Room-Temperature Strength and Modulus as a Function of Aging HistoryThermal Conductivity (Diffusivity) and Electrical Conductivity (Resistivity) as a Function of Test Temperature and Aging ... ; Creep Behavior of Oxide Fibers; Microstructural Stability; PERFORMANCE CHARACTERISTICS COMPARED TO PERFORMANCE GOALS; RECOMMENDATIONS AND FUTURE DIRECTIONS; 4 Ceramic Fiber Processing ; NON-OXIDE FIBER PROCESSING; Preceramic Polymer Processing; Microstructural Development; OXIDE FIBER PROCESSING; Chemical Processing; Chemistry of Oxide Fiber Precursors; Basic Aluminum Salts; Polymeric Aluminoxane.
- Dry SpinningPyrolysis; Heat Treatment and Fiber Microstructure; RECOMMENDATIONS AND FUTURE DIRECTIONS; Non-Oxide Fibers; Oxide Fibers; 5 Materials and Microstructures ; OPPORTUNITIES FOR FIBER DEVELOPMENT; POLYCRYSTALLINE OXIDES; POLYCRYSTALLINE SILICON CARBIDE; AMORPHOUS FIBERS; RECOMMENDATIONS AND FUTURE DIRECTIONS; 6 Interfacial Coatings ; COATINGS FOR NON-OXIDE COMPOSITES; Carbon Coatings; Composite Behavior; Oxidation Behavior; Boron Nitride Coatings; Composite Behavior; Oxidation Behavior; Alternative Fiber Coatings; Coating Compositions; Oxidation Behavior.