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25th Annual Conference on Composites, Advanced Ceramics, Materials, and Structures: A: Ceramic Engineering and Science Proceedi

Posted By: insetes
25th Annual Conference on Composites, Advanced Ceramics, Materials, and Structures: A: Ceramic Engineering and Science Proceedi

25th Annual Conference on Composites, Advanced Ceramics, Materials, and Structures: A: Ceramic Engineering and Science Proceedings, Volume 22, Issue 3 By
2001 | 718 Pages | ISBN: 047029468X | PDF | 62 MB


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 Commercial Applications for Advanced Ceramics in Diesel Engines (pages 3–10): William F. Mandler and Thomas M. YonushonisChapter 2 Ceramic Matrix Composites ? From Space to Earth: The Move from Prototype to Serial Production (pages 11–22): Richard KochendourferChapter 3 Application of TyrannoTm Fiber \ Si?Ti?C?O Matrix Composite to the Thermal Protection System of the Japanese Hope?X Space Vehicle (pages 23–30): Toshio Ogasawara and Takashi IshikawaChapter 4 Will Pigs Fly Before Ceramics Do? (pages 31–42): Lisa C. Veitch and William S. HongChapter 5 Structural Ceramics with Complex Shape ? Forming Methods (pages 43–50): Gabriela Halina WroblewskaChapter 6 Rbao: From Materials Development to Commercial Components (pages 51–58): Rolf Janssen, Nils Claussen, Sven Scheppokat and Mark RoegerChapter 7 Molybdenum Disilicide Materials for Glass Melting Sensor Sheaths (pages 59–64): J.J. Petrovic, R.G. Castro, R.U. Vaidya, M.I. Peters, D. Mendoza, R.C. Hoover and D.E. GallegosChapter 8 Silicon Nitride Ceramics for Valve Train Applications in Advanced Diesel Engines1 (pages 65–73): Seung Kun Lee, Phil H. Mccluskey, Michael J. Readey, H. ?T. Lin and A.A. WereszczakChapter 9 Ceramic Coatings for Cylinder Liners in Advanced Combustion Engines, Manufacturing Process and Characterization (pages 75–86): Michael Buchmann and Rainer GadowChapter 10 Porous Ceramic Preforms for Local Reinforcement of Light Metal Engine Components (pages 87–94): Ilka T. LenkeChapter 11 Cermet Tool and Die Materials from Metal Coated Powders (pages 95–102): Andrew J. Sherman, DR. Greg Smith, MR. Dean Baker and MR. Richard TothChapter 12 Novel Real?Time Method for Measuring the Densification Rate of Carbon?Carbon Fiber?Matrix Composites and Other Articles (Invited Paper) (pages 103–114): Ilan Golecki and Dave NarasimhanChapter 13 Optimizations of Ceramic Core Manufacture Using Realtime Monitoring and Process Design. (pages 115–123): Benjamin A. Mccalla, Siobhan O. Matthews and Michael J. BevisChapter 14 Mechanical Properties of Silicon Carbide Ceramics Densified with Rare?Earth Oxide and Alumina Additions (pages 127–134): You Zhou, Kiyoshi Hirao, Motohiro Toriyama, Yukihiko Yamauchi and Shuzo KanzakiChapter 15 Creep Resistant Biomorphic Silicon?Carbide Based Ceramics (pages 135–143): J. Martinez?Fernandez, F. M. Varela?Feria, S. Loapez?Pombero, A. R. De Arellano?Lopez and M. SinghChapter 16 Creep Mechanisms of Alumina\Sic Nanocomposites (pages 145–150): Martin Sternitzke and Heinz HuubnerChapter 17 Mechanical Behavior of Erbium Oxide Single Crystals (pages 151–158): J.J. Petrovic, A.A. Sharif, A.M. Kukla, R.S. Romero, D. Mendoza and F.M. PitekChapter 18 Long Term Tensile Creep Behavior of Highly Heat?Resistant Silicon Nitride for Ceramic Gas Turbines (pages 159–166): Tatsuki OhjiChapter 19 Tensile Creep in the Next Generation Silicon Nitride (pages 167–174): FrantiSEk Lofaj, Sheldon M. Wiederhorn, Gabrielle G. Long and Pete R. JemianChapter 20 Evaluation of Creep Property of As800 Silicon Nitride from Asprocessed Surface Regions (pages 175–182): H. T. Lin, S. B. Waters, K. L. More, J. Wimmer and C. W. LiChapter 21 On the Mechanism of High Temperature Strength Degradation of Low?Doped Hiped Silicon Nitride by In?Depth Tem?Sem Investigation (pages 183–190): Robert Pompe, Kazushi Kishi, Mats Halvarsson and Robert LundbergChapter 22 Non?Diamond Finishing of Silicon Nitride for Low Friction Against Steel (pages 191–196): G. M. Crosbie, R. L. Allor, A. Gangopadhyay, D. G. Mcwatt and P. A. WillermetChapter 23 Influence of Microstructure and Grain Boundary Phase on Tribological Properties of Si3N4 Ceramics (pages 197–202): H. Hyuga, S. Sakaguchi, K. Hirao, Y. Yamauchi and S. KanzakiChapter 24 Effect of Microstructure on Wear Behaviour of Silicon Nitride (pages 203–208): Masateru Nakamura, Kiyoshi Hirao, Shuji Sakaguchi, Yukihiko Yamauchi and Shuzo KanzakiChapter 25 Production and Characterization of Hexagonal Ceramic Packing (pages 209–214): R. T. Hernagndez Lopez, E. Rocha Rangel and M. Rodriguez CruzChapter 26 Mechanical Properties of Boron Carbide Ceramics (pages 215–220): Suzuya Yamada, Shuji Sakaguchi, Kiyoshi Hirao, Yukihiko Yamauchi and Shuzo KanzakiChapter 27 Oxidation of Zrb2?Sic (pages 221–228): Elizabeth J. Opila and Michael C. HalbigChapter 28 Indentation Damage of Silicon Carbide Deposited on Different Substrates (pages 229–234): Ji Yeon Park, Weon?Ju Kim, Min Young Lee, Joung H Kim and Gye Won HongChapter 29 Thermal Imaging Detection and Characterization of Normal Cracks (pages 237–243): J. G. Sun, C. Deemer, S. Erdman and W. A. EllingsonChapter 30 An Analysis of Crack Growth Resistance of Microcracking Brittle Solids and Composites (pages 245–252): S.B. BinerChapter 31 Modeling of Fracture Resistance of a Ceramic Composite at Elevated Temperatures (pages 253–260): E. T. Park and R. N. SinghChapter 32 Design Issues for Variable Mixed Mode I\Ii Testing (pages 261–268): Claudia B Milz, Jesus Chapa?Cabrera and Ivar E. ReimanisChapter 33 Influence of Crack Path on Crack Resistance of Brittle Matrix Composites (pages 269–276): S. Wa, B.R. Patterson, E.R. Fuller and M.K FerberChapter 34 Compliance and Crack?Bridging Analysis for Alumina Ceramics (pages 277–288): M.E. Ebrahimi, J. Chevalier and G. FantozziChapter 35 Slow Crack Growth of Sapphire (pages 289–297): Jonathan Salem, Anthony Calomino, Robert Allen and Lynn PowersChapter 36 Microscopic Simulation of Microcrack Propagation in Ai2O3?Zro2 Ceramic Composites (pages 299–306): Jianwu Cao, Yoshihisa Sakaida and Minoru MatsuiChapter 37 Crack Growth Observations in a Graded Composite Using Psmi (pages 307–312): E. D. Steffler, J. K. Wright and W. E. WindesChapter 38 Digital Signal Processing Algorithms Applied to Acoustic Impact Testing of Advanced Ceramics (pages 315–322): Ph.D. P.E. Scott R. Short and S. ChenChapter 39 Damage Evolution and Mechanical Properties of Woven Glass Fiber\Polymer Composites Under Low?Velocity Impact (pages 323–329): Tae?Woo Kim and Sung?Sic HwangChapter 40 Processing Aluminum Oxide\Titanium Diboride Composites for Penetration Resistance (pages 331–342): G. Gilde, J.W. Adams, M. Burkins, M. Motyka, P.J. Patel, E. Chin, L. Prokurat Franks, M. Sutaria and M.J. RigaliChapter 41 Sand Erosion of Alumina and Silicon Nitride Ceramics at Elevated Temperatures (pages 343–350): Tetsuya Senda, Kazuyoshi Arai, Yasuhiro Sasaki, Akio Matsubara and Masaaki AjimaChapter 42 A Statistical Upper Limit Strength for Ceramic Fiber Bundles (pages 355–362): T. MorimotoChapter 43 The Effect of Diameter Variation Along a Fiber on the Determination of Fiber Strengths and the Parameters of Their Distribution. (pages 363–370): Edgar Lara?Curzio and Doroteo GarciaChapter 44 Design of Fiber\Coating Systems for High Strength in Ceramic Matrix Composites (pages 371–378): Zhenhai Xia and William A. CurtinChapter 45 Process?Induced Carbon Sub?Layer in Sic\Bn\Sic Composites: Characterization and Consequences (pages 379–387): L.U.J.T. Ogbuji, D.R. Wheeler and T.R. MccueChapter 46 Progress on Bn and Doped?Bn Coatings on Woven Fabrics (pages 389–397): Frances I. Hurwitz, John M. Scott and Paul V. ChaykaChapter 47 Development of Si?M?C?(O) Tyranno Fiber Containing a Small Amount of Sol?Gel?Derived Oxide (pages 399–406): K. Kumagawa, H. Yamaoka, M. Shibuya and T. YamamuraChapter 48 Structural Properties and Thermo?Mechanical Behavior of New Cvd?Sic Monofilaments (pages 407–413): G. Chollon, R. Naslain, KL. Dyos and R.A. ShatwellChapter 49 Effect of Microstructure on the Creep Behaviour of a Directionally Solidified Yag\Alumina Eutectic Fibre (pages 415–420): J.E. Pitchford, F. Deleglise, M.H. Berger, A.R. Bunsell and W.J. CleggChapter 50 Creep of Directionally Solidified Al2O3\Er3Al5O12 Fibers with Hypo?Eutectic Composition (pages 421–428): J. Martinez Fernandez and A. SayirChapter 51 Exploration of Reliable Oxide Fiber Testing Procedures and Development of a Multicontinuum Based Creep Analysis Module (pages 429–438): D. Pai, Y. Acharya, S. Yarmolenko, J. Sankar, L. Zawada and J. LuaChapter 52 Cost Effective Processing of Cmc Composites by Melt Infiltration (Lsi?Process) (pages 443–454): Walter KrenkelChapter 53 Fabrication of Sic\Sic Composites by Modified Reaction Sintering Process (pages 455–462): S. P. Lee, Y. Katoh, J. S. Park, S. Dong and A. KohyamaChapter 54 Manufacturing of 3?D Woven SicF\Sic Composite Combustor Liner (pages 463–470): Yoshihiro Matsuda, Naofumi Akikawa and Toyoichi SatohChapter 55 A Thermally Conductive Sic?Polycrystalline Fiber and Its Fiber?Bonded Ceramic (pages 471–480): T. Ishikawa, M. Sato, S. Kajii, Y. Tanaka and M. SuzukiChapter 56 CVI Tyranno?Sa\Sic Composites with Various Pyc and Sic Interlayers (pages 481–488): W. Yang, Y. Katoh, A. Kohyama, H. Araki, T. Noda and J. YuChapter 57 Optimized Performance in Unidirectional Cfcmcs: Evolution from Experimental Observations to Desk?Top Design (pages 489–501): T.L. JessenChapter 58 Elastic Modulus and Proportional Limit Stress in Ceramic Matrix Composites: Comparison of Methods and Results (pages 502–511): Michael G. Jenkins and Larry P. ZawadaChapter 59 Cmc Constitutive Law Based on Continuum Damage Mechanics and Its First Order Implementation Into Abaqus (pages 512–520): J. ShiChapter 60 Tensile Behavior of Sic\Sic Composites Reinforced by Treated Sylramic Sic Fibers (pages 521–531): H.M. Yun, J.Z. Gyekenyesi, Y.L. Chen, D.R. Wheeler and J.A. DicarloChapter 61 Mechanical and Thermal Properties of Dense Sic\Sic Composite Fabricated by Reaction?Bonding Process (pages 533–538): T. Taguchi, N. Igawa, R. Yamada, M. Futakawa and S. JitsukawaChapter 62 Stress?Rupture and Stress?Relaxation of Sic\Sic Composites at Intermediate Temperature (pages 539–546): Gregory N. Morscher and Janet HurstChapter 63 Room Temperature Creep of Sic\Sic Composites (pages 547–552): Gregory N. Morscher and Andrew GyekenyesiChapter 64 Effect of Frequency on Fatigue Behavior in Tyranno Fiber Reinforced Sic Composites (pages 553–560): Yohei Kaneko, Shijie Zhu, Yasuo Ochi, Toshio Ogasawara and Takashi IshikawaChapter 65 Tensile Stress?Rupture of Sic\Sic Minicomposites in Vacuum (pages 561–568): J. Martinez Fernandez and G. N. MorscherChapter 66 Analysis of Cmc C?Coupon Specimens for Structural Evaluation (pages 569–576): Ali Abdul?Aziz, Anthony M. Calomino and Frances I. HurwitzChapter 67 C?Coupon Studies of Cmcs: Fracture Behavior and Microstructural Characterization (pages 577–584): Frances I. Hurwitz, Anthony M. Calomino, Terry R. Mccue and Ali Abdul?AzizChapter 68 Interlaminar Shear Strength of a Unidirectional Fiber?Reinforced Celsian Composite by Short?Beam and Double?Notched Shear Tests (pages 585–596): O. Unal and Narottam P. BansalChapter 69 Effect of Load Rate on Tensile Strength of Various Cfccs at Elevated Temperatures ? An Approach to Life Prediction Testing (pages 597–606): Sung R. Choi and John P. GyekenyesiChapter 70 Strength of 3?D Sic\Sic Composite After Long Term Exposure to Elevated Temperature (pages 609–616): Toyoichi Satoh, Yoshihiro Matsuda and Naofumi AkikawaChapter 71 Crack Growth Behavior and Tem Analysis of Interphase Oxidation in Boron?Enhanced Sic\Sic Composites (pages 617–624): Lucille A. Giannuzzi and Charles A. LewinsohnChapter 72 Stressed Oxidation and Modeling of C\Sic in Oxidizing Environments (pages 625–632): Michael C. HalbigChapter 73 Optical and Mechanical Properties of Fiber?Reinforced Ceramic Matrix Optically Transparent Composites (pages 635–642): A. F. Dericioglu and Y. KagawaChapter 74 Effect of Notches, Specimen Size, And Fiber Orientation on the Monotonic Tensile Behavior of Composites at Ambient and Elevated Temperatures (pages 643–650): M?L. Antti and Edgar Lara?CurzioChapter 75 Fatigue Behavior of a Nextel 610 Composite (pages 651–658): Howard G. Halverson and Scott W. CaseChapter 76 Effect of Small Effusion Holes on Creep Rupture Behavior of Oxide\Oxide NextelTm720\As Composite (pages 659–666): Dennis J. Buchanan, Victoria A. Kramb, Reji John and Larry P. ZawadaChapter 77 Evaluation of All?Oxide Composites Based on Coated NextelTm 610 And 650 Fibers (pages 667–675): K. A. Keller, T. Mah, T. A. Parthasarathy, E. E. Boakye and M. CinibulkChapter 78 Nextel 610 And 650 Fiber Reinforced Porous Alumina?Yag Matrix Composites (pages 677–686): Michael K. Cinibulk, Kristin A. Keller, Tai?Ii Mah and Triplicane A. ParthasarathyChapter 79 Analytical and Experimental Characterization of Thermo?Mechanical Properties of a Damaged Woven Oxide?Oxide Composite (pages 687–694): G. P. Tandon, D. J. Buchanan, N. J. Pagano and R. JohnChapter 80 Fatigue Behavior of a Nextel Tm 720\Alumina (N720\A) Composite at Room and Elevated Temperature (pages 695–702): Steven G. Steel, Larry P. Zawada and Shankar MallChapter 81 Processing, Microstructure and Properties of NextelTm 610, 650 And 720 Fiber\Porous Mullite Matrix Composites (pages 703–710): B.J. Kanka, J. Gouring, M. Schmuucker and H. SchneiderChapter 82 Analysis of Damage Evolution in Continuous Fiber?Reinforced Oxid\Oxide Composites Under Cyclic Loading, Using Infra?Red Thermography (pages 711–716): M?L. Antti, E. Lara?Curzio and M.K. FerberChapter 83 Application of Dielectric Properties to Non?Contact Damage Detection for Continuous Fiber?Ceramic Matrix Composites (pages 717–724): Takayuki Mamiya, Shijie Zhu and Yutaka KagawaChapter 84 Electrical and Microstructural Characterization of Insulating Matrix with Conducting Particles (pages 725–730): Sabina Hussain and Orfeo Sbaizero

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