جزییات کتاب
This volume is part of the Ceramic Engineering and Science Proceeding (CESP) series. This series contains a collection of papers dealing with issues in both traditional ceramics (i.e., glass, whitewares, refractories, and porcelain enamel) and advanced ceramics. Topics covered in the area of advanced ceramic include bioceramics, nanomaterials, composites, solid oxide fuel cells, mechanical properties and structural design, advanced ceramic coatings, ceramic armor, porous ceramics, and more.Content: Chapter 1 Transportation, Energy, and Ceramics (pages 947–956): Robert B. Schulz and D. Ray JohnsonChapter 2 Air Force High Temperature Materials Program (pages 957–960): Norman M. TallanChapter 3 Overview of Army Materials Programs (pages 961–971): Dennis J. ViechnickiChapter 4 NIST Ceramics Program (pages 972–976): S. J. Dapkunas and S. M. HsuChapter 5 Review of VLS SiC Whisker Growth Technology (pages 979–991): William E. Hollar and Jonathan J. KimChapter 6 High Temperature Continuous Sintered SiC Fiber for Composite Applications (pages 992–1006): F. Frechette, B. Dover, V. Venkateswaran and J. KimChapter 7 Properties of the Low Oxygen Content SiC Fiber on High Temperature Heat Treatment (pages 1007–1018): M. Takeda, Y. Imai, H. Ichikawa, T. Ishikawa, T. Seguchi and K. OkamuraChapter 8 Silylene?Acetylene Polymers as Precursors to SiC Fibers (pages 1019–1031): M. K. Meyer, M. Akinc, S. I?Maghsoodi, X. Zhang and T. J. BartonChapter 9 Fiber Creep Evaluation by Stress Relaxation Measurements (pages 1032–1038): Gregory N. Morscher, James A. Dicarlo and Timothy WagnerChapter 10 Inviscid Melt Spinning of Alumina Fibers: Jet Stabilization Mechanism (pages 1039–1047): F. T. Wallenberger, N. E. Weston and K. MotzfeldtChapter 11 Continuous Fiber Coating System (pages 1048–1063): W. J. Lackey, John A. Hanigofsky, Michael T. Groves and Jospeh A. HeaneyChapter 12 Sol?Gel Coating of Fiber Tows (pages 1064–1074): R. S. HayChapter 13 Novel Sol?Gel Coating Techniques for Ceramic Tows: In?Situ Curing vs Reaction Bonding (pages 1075–1085): D. A. Hazlebeck, I. Y. Glatter and H. H. StreckertChapter 14 Material Characterization of Chemical Vapor Deposited TiB2 Fibers (pages 1086–1094): Vithal Revankar, Vikas Lakhotia and Vladimir HlavacekChapter 15 Advanced Packing Theory Predicts Super Ceramic Composites (pages 1095–1112): John V. MilewskiChapter 16 Effect of Probe Geometry on Push?Out Test Results in Some SiC/Borosilicate Glass Composites (pages 1115–1126): Heather L. Walls and Paul D. JeroChapter 17 A Protrusion Method for Measuring Fiber/Matrix Sliding Frictional Stresses in Ceramic Matrix Composites (pages 1127–1138): Yutaka Kagawa and Koichi HondaChapter 18 Ultrasonic Velocity Technique for Monitoring Property Changes in Fiber?Reinforced Ceramic Matrix Composites (pages 1139–1151): H. E. Kautz and R. T. BhattChapter 19 Investigation of Interfacial Shear Strength in SiC/Si3N4 Composites (pages 1152–1171): J. I. Eldridge, R. T. Bhatt and J. D. KiserChapter 20 Evaluation of SiC Platelets as a Reinforcement for Oxide Matrix Composites (pages 1175–1192): Daniel Baril and Mukesh K. JainChapter 21 Microstructure and Properties of Alumina?Whisker?Reinforced Tetragonal Zirconia Polycrystal Matrix Composites (pages 1193–1200): J. M. Roberts, J. P. Singh and R. O. ScattergoodChapter 22 The Microstructure and Properties of Plasma?Sprayed Ceramic Composites (pages 1201–1221): K. Lapierre, H. Herman and A. G. TobinChapter 23 Crystallization and Properties of Sr?Ba Aluminosilicate Glass?Ceramic Matrices (pages 1222–1234): Narottam P. Bansal, Mark J. Hyatt and Charles H. DrummondChapter 24 Sintering of Amorphous Mullite with Crystalline Inclusions (pages 1235–1244): De?Yin Jeng and Mohamed N. RahamanChapter 25 Physical Properties of Alumina?Boron Carbide Whisker/Particle Composites (pages 1245–1253): Jenq Liu and P. Darrell OwnbyChapter 26 Gelcast Reaction Bonded Silicon Nitride Composites (pages 1257–1264): O. O. Omatete, T. N. Tiegs and A. C. YoungChapter 27 Processing and Properties of SiC Whisker? and Particulate?Reinforced Reaction Bonded Si3N4 (pages 1265–1291): A. Lightfoot, L. Ewart, J. Haggerty, Z. Q. Cai, J. Ritter and S. NairChapter 28 Polymeric Routes to Silicon Carbide and Silicon Oxycarbide CMC (pages 1292–1303): Frances I. Hurwitz, Paula J. Heimann, John Z. Gyekenyesi, John Masnovi and Xin Ya BuChapter 29 Silicon Carbide/SRBSN Composites (pages 1304–1317): A. G. Razzell and M. H. LewisChapter 30 Evaluation of SiC(w)?Si3N4 Composites Containing Beneficiated/Heat?Treated SiC(w) (pages 1318–1326): D. E. Wittmer and T. E. PaulsonChapter 31 Hot Isostatic Pressing of Sintered Si3N4 Ceramics (pages 1327–1344): K. P. Plucknett and M. H. LewisChapter 32 Nano?Diamond Enhanced Silicon Carbide Matrix Composites (pages 1345–1355): P. Darrell Ownby and Jenq LiuChapter 33 Finite Element Prediction of the Fracture Mechanisms of Short Fiber?Reinforced Ceramic Matrix Composites (pages 1359–1374): J. S. LyonsChapter 34 Mathematical Modeling of the Strength and Toughness of Unidirectional Fiber?Reinforced Ceramics (pages 1375–1388): K. M. Knowles and X. F. YangChapter 35 Computational and Experimental Simulation of 3?D Fracture in Ceramic Fiber?Ceramic Matrix Composites (pages 1389–1407): W. D. Keat, M. C. Larson and M. P. ClearyChapter 36 A Detailed Look at Microfailure Processes in a Brittle Matrix Fiber Composite (pages 1408–1417): T. Kobayashi, D. A. Shockey and S. M. JohnsonChapter 37 High?Temperature R?Curve Determination of an HIP'ed Silicon Nitride (pages 1418–1436): Hanane E. Saliba, Leon Chuck and Norman L. HechtChapter 38 Influence of the Si3N4 Microstructure on Its R?Curve and Fatigue Behavior (pages 1437–1447): Veena Tikare and Sung R. ChoiChapter 39 Measurement of KI (arrest) in Alumina Using Raman Microprobe Spectroscopy (pages 1448–1451): E. A. Mendoza and W. R. CannonChapter 40 Fracture Toughness of Fiber?Reinforced Glass Ceramic and Ceramic Matrix Composites (pages 1452–1461): Kevin R. Stull and A. Parvizi?MajidiChapter 41 Microcracking and Changes in Elastic Moduli of Random, Discontinuous Celion Graphite?Borosilicate Glass Composite (pages 1462–1482): P. G. Karandikar, Tsu?We I. Chou, Otis Chen, N. Takeda and T. KishiChapter 42 Diamond Pin?On?Disk Wear of Al2O3 Matrix Composites and Nonoxides (pages 1485–1499): Carl Cm. Wu, R. W. Rice, C. P. Cameron, L. E. Dolhert, J. H. Enloe and J. BlockChapter 43 Thermal Shock Fiber?Reinforced Ceramic Matrix Composites (pages 1500–1508): Andrew J. Eckel, Thomas P. Herbell, Edward R. Generazio and John Z. GyenkeyesiChapter 44 High?Temperature Tension?Tension Cyclic Fatigue for an HIP'ed Silicon Nitride (pages 1509–1523): Leon Chuck, Dale E. McCullum, Norman L. Hecht and Steven M. GoodrichChapter 45 Dynamic Fatigue Property of Silicon Carbide Whisker?Reinforced Silicon Nitride (pages 1524–1536): Sung R. Cho, Jonathan A. Salem and John P. GyekenyesiChapter 46 Tensile and Creep Behavior of a Silicon Carbide Fiber?Reinforced Aluminosilicate Composite (pages 1537–1555): M. Khobaib and L. ZawadaChapter 47 Modeling of Nonlinear Constitutive Relations of Woven Ceramic Composites (pages 1556–1573): Wen?Shyong Kuo and Tsu?Wei ChouChapter 48 Comparison of Residual Stresses in Hot Pressed and Sintered Alumina/Silicon Carbide (Whisker) Composites (pages 1574–1585): Xiaojing Zhu and Paul PredeckiChapter 49 Acoustic Emission Characterization of the Fracture Mechanisms of a Glass?Matrix Composite (pages 1586–1598): O. Chen, P. Karandikar, N. Takeda, T. Kishi, W. Tredway and K. PrewoChapter 50 In Situ X?Ray Monitoring of Damage Accumulation in SiC/RBSN Tensile Specimens (pages 1599–1615): George Y. Baaklini and Ramkrishna T. Bhatt