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Publications

Dr. James A. DiCarlo

Current as of 2006

1966 to 1985

(Partial list, total papers = 25)

1966

J.A. DiCarlo and J. Townsend: Internal Friction Peaks in Deuteron-Irradiated Tungsten, Acta Met., 14 (1966), 1715-1722.

1969

J.A. DiCarlo, L. Snead, and A. Goland: Stage I interstitials in Electron-Irradiated Tungsten, Physical Review, 178 (1969), 1059-1072.

1976

J.A DiCarlo: Anelastic Deformation of Boron Fibers, Scripta Met., 10 (1976), 115-119.

1977

J.A. DiCarlo: Time-Temperature-Stress Dependence of Boron Fiber Deformation, Composite Materials: Testing and Design (Fourth Conference), ASTM-STP-617, American Society for Testing and Materials, Philadelphia, 1977, pp. 443-465.

1979

J.A. DiCarlo and J. Maisel: Measurement of the Time-Temperature Dependent Dynamic Mechanical Properties of Boron/Aluminum Composites, Composite Materials: Testing and Design (Fifth Conference), ASTM-STP-617, American Society for Testing and Materials, Philadelphia, 1979, pp. 210-227.

1980
  1. J.A. DiCarlo and J. Maisel: High Temperature Dynamic Modulus and Damping of Aluminum and Titanium Matrix Composites, Advanced Fibers and Composites for Elevated Temperatures, The Metallurgical Society of AIME, 1980, pp.55-79.
  2. J.A. DiCarlo: Predicting the Time-Temperature Dependent Axial Failure of B/Al Composites, J. of Composite Materials, 14 (1980), 297-314.
  3. J.A. DiCarlo and T.C. Wagner: Oxidation-Induced Contraction and Strengthening of Boron Fibers, Ceramic Engineering and Science Proceedings, 2 (1980), 872-893.

1985 to Present

1985
  1. J.A. DiCarlo: Fibers for Structurally Reliable Metal and Ceramic Composites; J. of Metals 37 (1985), 44.
  2. R.A. Signorelli and J.A. DiCarlo: High Temperature Metal and Ceramic Composites; J. of Metals 37 (1985), 42.
  3. D.L. McDanels, T.T. Serafini, and J.A. DiCarlo: Polymer, Metal, and Ceramic Matrix Composites for Advanced Aircraft Engine Applications; NASA TM 87132 (1985).
1986
  1. J.A. DiCarlo: Creep of Chemically Vapour Deposited SiC Fibers. J. Mater. Sci. 21 (1986), 217.
1987
  1. S.R. Levine, J.A. DiCarlo, and J.D. Kiser: Aerospace Ceramics: Research and Applications in High Tech Ceramics, ed. P. Vincenzini, Elsevier Science Publishers, Amsterdam, 1987, 163.
  2. N.J. Shaw, J.A. DiCarlo, N.S. Jacobson, S.R. Levine, J.A. Nesbitt, H.B. Probst, W.A. Sanders, and C.A. Stearns: Materials for Engine Applications Above 3000oF – an Overview; NASA TM 100169 (1987).
  3. J.D. Kiser, S.R. Levine, and J.A. DiCarlo: Ceramics for Engines; Proceedings of Aeropropulsion ‘87, NASA CP 10003.
1988
  1. J.A. DiCarlo: High Temperature Properties of CVD Silicon Carbide Fibers; in Whisker and Fiber-Toughened Ceramics, ASM International, Metals Park, Ohio, 1988, 1.
  2. J.A. DiCarlo: Fiber Reinforced Ceramics: Promises, Problems, and Progress; Proceedings of the International Symposium on Basic Technologies for Future Industries, Kobe, Japan, March 1988.
  3. J.A. DiCarlo: Chemically Vapor Deposited Ceramic Fibers: Micro-Composites with Performance Controlling Interfaces: Proceedings of Second International Conference on Composite Interfaces, Cleveland, Ohio, June 1988.
  4. J.A. DiCarlo: Ceramic Matrix Composites; HITEMP Review, 1988, NASA CP 10025, 83.
  5. J.A. DiCarlo, M.H. Jaskowiak, R. Bhatt, and J.B. Hurst: SiC Fiber Property Evaluation and Enhancement; HITEMP Review, 1988, NASA CP 10025, 261.
1989
  1. J.A. DiCarlo: CMCs for the Long Run; Adv. Mat. & Proc. 135[6] (1989), 41.
  2. J.A. DiCarlo: Fiber-Reinforced Ceramics: Needs and Opportu­nities; Proceedings of DOE/Cornell Workshop on High Temperature Ceramics, Aurora, N.Y., June 1989.
  3. J.A. DiCarlo: Overview: Ceramic Matrix Composites; HITEMP Review, NASA CP 10039 (1989), 9.
  4. J.A. DiCarlo: Thermal Stability of SCS-6 Fibers; HITEMP Review, NASA CP 10039 (1989), 69.
  5. M.H. Jaskowiak and J.A. DiCarlo: Pressure Effects on the Stability of Silicon Carbide Fibers; J. Am. Ceram. Soc. 72 [2] (1989), 192.
1990
  1. J.A. DiCarlo, J.B. Hurst, G.N. Morscher, A. Sayir, and G. Selover: Current Issues for SiC and Oxide Fiber Development; HITEMP Review, NASA CP 10051 (1990), 50.
  2. X.J. Ning, P. Pirouz, K.P.D. Lagerlof, and J.A. DiCarlo: The Structure of Carbon in Chemically Vapor Deposited SiC Monofilaments; J. Mater. Res. 5 [12] (1990), 2865.
  3. G.A. Lesieutre, A.J. Eckel, and J.A. DiCarlo: Increased Graphite Fiber Damping via Intercalation; Proceedings of DAMPING ‘89, WRDC-TR-89-3116, vol. II (1990), p.GDA-1
1991
  1. J.A. DiCarlo: High Temperature Structural Fibers – Status and Needs; NASA TM 105174 (1991).
  2. J.A. DiCarlo and G.N. Morscher: Creep and Stress Relaxation Modeling of Polycrystalline Ceramic Fibers; Failure Mechanisms in High Temperature Composite Materials, ASME. AD-Vol.22, AMD-Vol. 122, 1991.
  3. J.A. DiCarlo and G.N. Morscher: Creep Modeled for Polycrystalline Ceramic Fibers; Research and Technology, 1991, NASA TM 105320.
  4. G.N. Morscher, J.A. DiCarlo, and T. Wagner: Fiber Creep Evaluation by Stress Relaxation Measurements; Ceram. Eng. Sci. Proc. 12 [7-8] (1991), 1032.
  5. G.N. Morscher and J.A. DiCarlo: Creep and Stress Relaxation of SiC-Based and Al2O3-Based Polycrystalline Fibers; HITEMP Review, 1991, NASA CP 10082, 78.
  6. G.A. Lesieutre, A.J. Eckel, and J.A. DiCarlo: Damping of Bromine-Intercalated P-100 Graphite Fibers; Carbon 29 [7] (1991), 1025.
1992
  1. G.N. Morscher and J.A. DiCarlo: A Simple Test for Thermomechanical Evaluation of Ceramic Fibers; J. Am. Ceram. Soc. 75 [1] (1992), 136.
1993
  1. J.A. DiCarlo and J.C. Goldsby: Damping Mechanisms in Chemically Vapor Deposited SiC Fibers; in Damping of Multiphase Inorganic Materials, ed. R.B. Bhagat, ASM International, Materi­als Park, Ohio, 1993, p.141.
  2. J.A. DiCarlo: Microstructural Design of Structurally Reliable CMC; HITEMP Review, NASA CP 19117 (1993), 62.
  3. G.N. Morscher and J.A. DiCarlo: Creep and Stress Relaxation Properties in Relation to Microstructure for SiC Fi­bers; HITEMP Review, NASA CP 19117 (1993), 88.
  4. G.E. Hilmas, J.W. Holmes, R.T. Bhatt, and J.A. DiCarlo: Tensile Creep and Creep Recovery Behavior of Unidirectional Reinforced SCS-6 SiC-Fiber/RBSN Composites; HITEMP Review, NASA CP 19117 (1993), 71.
  5. J.C. Goldsby, J.A. DiCarlo, H.M. Yun, and G.N. Morscher: Thermomechanical Properties of Advanced Polycrystalline Oxide Fibers; HITEMP Review, NASA CP 19117 (1993), 85.
  6. G.N. Morscher, J.A. DiCarlo, X.J. Ning and P. Pirouz: Effect of Heat Treatment on the Stress Relaxation and Microstructure of CVD SiC Fibers; Advances in Ceramic Matrix Composites I, Ceramic Transactions 38 (1993), 679.
  7. G.E. Hilmas, J.W. Holmes, R.T. Bhatt, and J.A. DiCarlo: Tensile Creep Behavior and Damage Accumulation in SiC-Fiber/RBSN Matrix Composite; Advances in Ceramic Matrix Composites I, Ceramic Transactions 38 (1993), 291.
  8. M.H. Manghnani, V. Askarpour, and J.A. DiCarlo: High-Temperature Elasticity of Single-Crystal Al2O3 Fibers by Brillouin Spectroscopy; Advances in Ceramic Matrix Composites I, Ceramic Transactions 38 (1993), 703.
  9. H.M Yun, J.C. Goldsby, and J.A. DiCarlo: Stress-Rupture Behavior of Small-Diameter Polycrystalline Alumina Fibers; Advances in Ceramic Matrix Composites I, Ceramic Transactions 38 (1993), 713.
  10. R.E. Tressler and J.A. DiCarlo: High temperature Mechanical Properties of Advanced Ceramic Fibers, Proceedings of HT-CMC-1, Eds. R. Naslain, J. Lamon, and D. Doumeingts, Woodland Publishing, Ltd., Cambridge, England, 1993, p.33.
1994
  1. J.A. DiCarlo, H.M. Yun, G.N. Morscher, and J.C. Goldsby: Tensile Creep-Rupture Modeling of SiC Fibers; HITEMP Review, NASA CP 10146 (1994), 76.
  2. J.A. DiCarlo and G.N. Morscher: Creep and Stress Relaxation Modeling of Polycrystalline Ceramic Fibers. NASA TM 105394, 1994.
  3. J.A. DiCarlo: Creep Limitations of Current Polycrystalline Ceramic Fibers; Composites Science and Technology 51 (1994), 231.
  4. J.A. DiCarlo: Fibers for Ceramic Composites: Needs and Opportunities; in Flight-Vehicle Materials, Structures, and Dynamics – Assessment and Future Directions, vol. 2, eds. A.K. Noor and S.L. Venneri, ASME, New York, N.Y., 1994, p.285.
  5. J.A. DiCarlo: Creep-Rupture Goals Set for Ceramic Fiber Reinforcement; Research and Technology, 1994, NASA Lewis, 46.
  6. H.M. Yun, J.C. Goldsby, and J.A. DiCarlo: Tensile creep and Stress-Rupture Behavior of Polymer Derived SiC Fibers; Advances in Ceramic Matrix Composites II, Ceramic Transactions 46 (1994), 17.
1995
  1. J.A. DiCarlo: Property Goals and Test Methods for High Temperature Ceramic Fiber Reinforcement; Proceedings of 8th CIMTEC, Florence, Italy, 1994.
  2. J.A. DiCarlo and H.M. Yun: Issues for Creep and Rupture Evaluation of Ceramic Fibers; Plastic Deformation of Ceramics, eds. R. Bradt, C. Brooks, and J. Routbort, Plenum Publishing, New York, 1995.
  3. J.A. DiCarlo, H.M. Yun, and G.N. Morscher: Models for the Thermostructural Properties of SiC Fibers, Proceedings for HTCMC-2, Ceramic Transactions 57 (1995), 343-348.
  4. J.A. DiCarlo and H.M. Yun: Creep and Stress Rupture Behavior of Advanced SiC Fibers; Proceedings of ICCM-10, Whistler, BC, Canada, 1995, vol. VI, pp.315-322.
  5. J.A. DiCarlo, H.M. Yun, and J.C. Goldsby: Progress in Evaluating and Modeling Creep-Rupture Behavior of SiC Fibers; HITEMP Review, 1995, NASA CP-10178, pp. 53.1-53.9.
  6. J.C. Goldsby, H.M. Yun, G.N. Morscher, and J.A. DiCarlo: Factors Influencing the Tensile Creep of CVD and Sintered SiC Fibers; HITEMP Review, 1995, NASA CP-10178, 54.
  7. R.E Tressler and J.A. DiCarlo: Creep and Rupture of Advanced Ceramic Reinforcements; Proceedings for HTCMC-2, Ceramic Transactions 57 (1995), 141.
  8. H.M. Yun, J.C. Goldsby, and J.A. DiCarlo: Environmental Effects on Tensile Creep and Rupture Behavior of Advanced SiC Fibers; Proceedings for HTCMC-2, Ceramic Transactions 57 (1995), 331.
  9. H.M. Yun, J.C. Goldsby, and J.A. DiCarlo: Effects of Thermal Treatment on Tensile Creep and Rupture Behavior of Hi-Nicalon SiC Fibers; Cer. Eng. Sci. Proc. 16 [5] (1995), 987.
  10. H.M. Yun, J.C. Goldsby, and J.A. DiCarlo: Thermomechanical Behavior of Three Types of CVD SiC Monofilaments; HITEMP Review, 1995, NASA CP-10178, 56.
1996
  1. J.A. DiCarlo and S. Dutta, Continuous Ceramic Fibers for Ceramic Composites, in: Handbook on Continuous Fiber Reinforced Ceramic Matrix Composites, CIAC, Purdue University, West Lafayette, Indiana (1996), pp. 137-183.
  2. J.A. DiCarlo: Thermomechanical Property DataBase for Ceramic Fibers; in Research and Technology, 1995, NASA Lewis.
  3. J.A. DiCarlo, H.M. Yun, and G.N. Morscher: Thermostructural Performance Maps for Fiber-Reinforced Ceramic Matrix Composites. Presented at American Ceramic Society Meeting, April 1996, Indianapolis, IN.
  4. H.M. Yun and J.A. DiCarlo: Time/ Temperature Dependent Tensile Strength of SiC and Al2O3-Based Fibers. Ceramic Transactions 74 (1996), 17
  5. H.M. Yun and J.A. DiCarlo: Thermomechanical Behavior of Advanced SiC Fiber Multifilament Tows. Ceram. Eng. Sci. Proc. 17B (1996), 61.
1997
  1. J.A. DiCarlo, J.C. Goldsby, H.M. Yun and G.N. Morscher: Creep Strength-Grain Size Relationships for Polycrystalline Ceramic Fibers, Proceedings of the Annual Review of the Advanced High Temperature Engine Materials Technology Program (HITEMP), Cleveland, Ohio, April 30, 1997. NASA CP 10192
  2. J.A. DiCarlo: Fiber Contraction Approaches for Improving CMC Proportional Limit. Proceedings of Physics & Process Modeling (PPM) and Other Propulsion R&T Review, Cleveland, Ohio, May 1, 1997. NASA CP 10193
  3. J.A. DiCarlo: Property Goals and Test Methods for High Temperature Ceramic Fiber Reinforcement. Ceramics International 23 (1997) 283.
  4. J.C. Goldsby, H.M. Yun, and J.A. DiCarlo: Creep and Rupture of an Advanced CVD SiC Fiber. Scripta Materialia 37[3] (1997) 299.
  5. H.M. Yun and J.A. DiCarlo: High Temperature Contraction Behavior of Polymer-Derived SiC Fibers. Ceram. Eng. Sci. Proc. 18A (1997), 135.
  6. S.K. Mital, M. Tong, P.L.N. Murthy, and J.A. DiCarlo: Micromechanics-Based Modeling of Thermal and Mechanical Properties of an Advanced SiC/SiC Composite Material, NASA/TM 1998-206295
1998
  1. J.A. DiCarlo: Factors Affecting Fiber Design and Selection for Advanced Ceramic Composites. Mueller Memorial Lecture presented at 22nd Annual Conference of the American Ceramic Society, Engineering Division, Cocoa Beach, Florida, 1998.
  2. J.A. DiCarlo and H.M. Yun: Microstructural Factors Affecting Creep-Rupture Failure of Ceramic Fibers and Composites. Ceramic Transactions 99 (1998), 119-134.
  3. J.A. DiCarlo and H.M. Yun: Thermostructural Performance Maps for Ceramic Fibers. Proceedings of CIMTEC ‘98, Florence, Italy, 1998.
  4. J.A. DiCarlo and N.P. Bansal: Fabrication Routes for Continuous Fiber-Reinforced Ceramic Composites (CFCC). NASA/TM 1998-208819.
1999
  1. H.M. Yun and J.A. DiCarlo: Comparison of the Tensile, Creep, and Rupture Strength Properties of Stoichiometric SiC Fibers, NASA/TM – 1999-209284
  2. H.M. Yun and J.A. DiCarlo: Thermostructural Properties of Stoichiometric SiC Fibers, Proceedings of the Third International Conference on Fusion Materials, Cocoa Beach, FL, 1999.
  3. J.A. DiCarlo and H.M. Yun: Status of Advanced SiC Fibers for 2400oF CMC, HITEMP Review 1999, NASA CP-1999-208915, pp,
  4. H.M. Yun and J.A. DiCarlo: Thermomechanical Characterization of SiC Fiber Tows and Implications for CMC, Proceedings of ICCM-12, Paris, France, 1999, and NASA/TM – 1999-209283.
  5. J.A. DiCarlo and H.M. Yun: Factors Controlling Stress-Rupture of Fiber-Reinforced Ceramic Composites, Proceedings of ICCM-12, Paris, France, 1999.
  6. P.L.N. Murthy, S.K. Mital, and J.A. DiCarlo: Characterizing the Properties of a Woven SiC/SiC Composite using W-CEMCAN Computer Code, NASA/TM – 1999-209173.
  7. S.K. Mital, P.L.N. Murthy, and J.A. DiCarlo: Constituent-Based Modeling of Thermal and Mechanical Properties of Advanced Woven Composites, HITEMP Review 1999, NASA CP-1999-208915, pp. 49-1 to 49-11.
2000
  1. H.M. Yun and J.A. DiCarlo: Thermostructural Behavior of SiC Fiber Fabrics and Implications for CMC, Ceram. Eng. Sci. Proc. 21 (2000), pp. 347-362.
  2. J.A. DiCarlo and H.M. Yun: Constituent-Based Life Models Being Developed for SiC/SiC Composites, Research and Technology 1999, NASA/TM—2000-209639, April 2000, pp. 11-12.
  3. P.L.N. Murthy, S.K. Mital, and J.A. DiCarlo: CEMCAN Software Enhanced for Predicting the Properties of a Woven Ceramic Matrix Composites, Research and Technology 1999, NASA/TM—2000-209639, April 2000, pp. 104-105.
  4. J.A. DiCarlo and H.M. Yun: Modeling the Thermostructural Capability of Continuous Fiber-Reinforced Ceramic Composites, Paper 2000-GT-640, Proceedings of the International Gas Turbine & Aero engine Congress, The American Society of Mechanical Engineers, New York, N.Y., 2000
  5. J.A. DiCarlo and H.M. Yun: Fiber Test Development for Ceramic Composite Thermomechanical Properties, Mechanical, Thermal and Environmental Testing and Performance of Ceramic Composites and Components, ASTM STP 1392, M. G. Jenkins, E. Lara-Curzio, and S. T. Gonczy, Eds, American Society for Testing and Materials, West Conshohocken, PA, 2000, pp. 134-147.
  6. J.A. DiCarlo: Constituent-Based Life Modeling of SiC/SiC Composites at High Temperatures, Proceedings of the IHPTET Symposium Workshop Session on CMC Component Life Prediction, Dayton, OH, 2000
2001
  1. H.M. Yun, J.Z. Gyekenyesi, Y.L. Chen, D.R. Wheeler, and J.A. DiCarlo, Tensile Behavior of SiC/SiC Composites Reinforced By Treated Sylramic SiC Fibers, Cer. Eng. Sci. Proc., 22, Issue 3, (2001), pp. 521-531
  2. J.A. DiCarlo, H.M. Yun, G.N. Morscher, and R.T. Bhatt: SiC/SiC Material Development Under the NASA UEET Program, Proceedings of 25th Annual Conference on Ceramics, Metal, & Carbon Composites, Materials and Structures, Restricted Sessions, Paper F02, 2001
  3. J.A. DiCarlo, H.M. Yun, G.N. Morscher, and L.U. Thomas-Ogbuji: Progress in SiC/SiC Composites for Engine Applications, High Temperature Ceramic Matrix Composites, W. Krenkel, R. Naslain, and H. Schneider, Eds, Wiley-VCH, Weinheim, Germany, 2001, pp. 777-782
  4. H.M. Yun and J.A. DiCarlo: Effects of 2-D Fabric Geometry on the Tensile Strength of Stoichiometric SiC Fiber-Reinforced Composites, High Temperature Ceramic Matrix Composites, W. Krenkel, R. Naslain, and H. Schneider, Eds, Wiley-VCH, Weinheim, Germany, 2001, pp. 99-105
  5. J.A. DiCarlo, H.M. Yun, G.N. Morscher, and R.T. Bhatt, CMC Material Development, Proceedings of Annual Technology Forum of the Ultra-Efficient Engine Technology (UEET) Program, Sept. 5, 2001
  6. J.A. DiCarlo and H.M. Yun: Overview of NASA Studies on High-Temperature Ceramic Fibers, 2000 NASA Seal/Secondary Air System Workshop, NASA/CP – 2001-211208, Vol. 1, pp. 439-448
  7. J.A. DiCarlo, H.M. Yun, and J.B. Hurst, Fracture Mechanisms for SiC Fibers and SiC/SiC Composites Under Stress-Rupture Conditions at High Temperatures, Advances in Fracture Research, Proceedings of ICF10, Elsevier Applied Science, London, 2001, paper ICF100586OR
  8. H.M. Yun and J.A. DiCarlo: Tensile Fracture and Creep-Rupture Behavior of SiC Fibers, Advances in Fracture Research, Proceedings of ICF10, Elsevier Applied Science, London, 2001, paper ICF100582OR
  9. D. M. Wilson, J. A. DiCarlo, and H.M. Yun: Ceramic Fibers, chapter in ASM Handbook, Volume 21 Composites, ASM International, Materials Park, Ohio, 2001, pp. 46-50
2002
  1. H.M. Yun, J.Z. Gyekenyesi, and J.A. DiCarlo: Effects of 3D-Fiber Architecture on Tensile Stress-Strain Behavior of SiC/SiC Composites. Cer. Eng. Sci. Proc., 23 [3] (2002), pp. 503
  2. H.M. Yun and J.A. DiCarlo: Tensile Behavior of as-Fabricated and Burner-Rig Exposed SiC/SiC Composites with Hi-Nicalon Type S Fibers. Cer. Eng. Sci. Proc., 23 [3] (2002), pp. 571
  3. A.M. Tsirlin, E.K. Florina, Y.E. Pronin, B.I. Schemaev, M.A. Khatzernov, H.M. Yun, G.N. Morscher, and J.A. DiCarlo: Strength And Oxidation Resistance of SiC Fibers Coated With Various Si-Containing Compositions. Cer. Eng. Sci. Proc., 23 [3] (2002), pp.269-276.
  4. J. DiCarlo, H.M. Yun, G. Morscher, R. Bhatt, and J. Hurst: Progress in SiC/SiC Material Development Under NASA UEET, Proceedings 26th Annual Conference on Ceramics, Metal &Carbon Composites, Materials and Structures, January 2002, Cape Canaveral, Florida.
  5. H.M. Yun, J.A. DiCarlo, L.T. Ogbuji, and Y.L. Chen: Environmental Effects on the Stress-Strain Behavior of SiC/SiC Composites Reinforced by Hi-Nicalon Type-S Fibers. Proceedings 26th Annual Conference on Ceramics, Metal &Carbon Composites, Materials and Structures, January 2002, Cape Canaveral, Florida.
  6. J.A. DiCarlo and H.M. Yun: Creep of Ceramic Fibers: Mechanisms, Models, and Composite Implications. Creep Deformation: Fundamentals and Applications, eds. R.S. Mishra, J.C. Earthman, and S.V. Raj, The Minerals, Metals, and Materials Society, Warrendale, PA, 2002, pp.
  7. J.A. DiCarlo and H.M. Yun: New High-Performance SiC Fiber for Ceramic Composites. NASA Glenn Research and Technology 2001, NASA/TM—2002-211333, pp 8-9.
  8. H.M. Yun and J.A. DiCarlo: Improved Architectures for High Performance Ceramic Composites. NASA Glenn Research and Technology 2001, NASA/TM—2002-211333, pp.9-10.
  9. J.A. DiCarlo and H.M. Yun: Modeling the Thermostructural Capability of Continuous Fiber-Reinforced Ceramic Composites. J. Engineering for Gas Turbines and Power, 204 [7] (2002), pp. 465-470.
  10. J.A. DiCarlo, H.M. Yun, G.N. Morscher, and R.T. Bhatt: Progress in SiC/SiC Composite Development for Gas Turbine Hot-Section Components under NASA EPM and UEET Programs. , Paper GT-2002-30461, Proceedings of the 2002 ASME Turbo Expo Land, Sea, and Air, Amsterdam, The Netherlands, June 3-6, 2002
  11. H.M. Yun and J.A. DiCarlo: Thermo-mechanical Properties of Ceramic Fibers for Structural Ceramic Matrix Composites. Proceedings of CIMTEC ‘02, Florence, Italy, 2002.
  12. J.A. DiCarlo: Ceramic Matrix Composites: Applications, Processes, and Properties. Tutorial, proceedings National Space & Missile Materials Symposium, 2002, Colorado Springs, CO.
  13. J.A. DiCarlo: Advanced SiC/SiC Composites For Applications to 2400oF and Above. Proceedings National Space & Missile Materials Symposium, 2002, Colorado Springs, CO.
  14. S.K. Mital, P.L.N. Murthy, and J.A. DiCarlo: Characterizing the Properties of a Woven SiC/SiC Composite. Journal of Advanced Materials, 35 [1] (2003), pp. 52-60.
  15. J.D. Kiser, J.A. DiCarlo, A.J. Eckel, M.R. Freedman, and S.R. Levine: Overview of GRC’s C/SiC and SiC/SiC Ceramic Matrix Composite Materials Development. Proceedings NASA Seal/Secondary Air System Workshop, Cleveland, OH, NASA/CP – 2002-211911, Vol. 2, pp. 175-199.
  16. M.C. Halbig, J.D. Kiser, and J.A. DiCarlo: Ceramic Matrix Composites for Space Transportation Applications – Evaluation of C/SiC and SiC/SiC in Oxidizing Environments. Proceedings RLV/SOV Airframe Technology Review, Hot Structures Session, 2002, Hampton, VA.
2003
  1. M.J. Verrilli, J.A. DiCarlo, H.M. Yun, and T.R. Barnett: Hoop Tensile Characterization of SiC/SiC Cylinders Fabricated from Spliced 2D Fabric. Cer. Eng. Sci. Proc., (2003), pp.
  2. H.M. Yun, J.A. DiCarlo, R.T. Bhatt, and J.B. Hurst. Advantages of the Sylramic-iBN SiC Fiber for SiC/SiC Components. Cer. Eng. Sci. Proc., (2003), pp.
  3. R.T. Bhatt, T.R. McCue, and J.A. DiCarlo: Thermal Stability of Melt Infiltrated SiC/SiC Composites. Cer. Eng. Sci. Proc., (2003), pp.
  4. J.A. DiCarlo, R.T. Bhatt, and T.R. McCue: Modeling the Thermostructural Stability of Melt Infiltrated SiC/SiC Composites. Cer. Eng. Sci. Proc., 24 (2003), pp. 465-470.
  5. J.A. DiCarlo: SiC/SiC Process-Property Optimization under NASA UEET. Proceedings 27th Annual Conference on Ceramics, Metal &Carbon Composites, Materials and Structures, January 2003, Cape Canaveral, Florida.
  6. J.A. DiCarlo: Advances in SiC/SiC Materials And Processes For Aerospace Applications. Proceedings of the AeroMat 2003 Conference, June, 2003, Dayton, Ohio.
  7. J.A. DiCarlo, H.M. Yun, G.N. Morscher, and R.T. Bhatt: SiC/SiC Development and Scale-up, Proceedings of Annual Technology Forum of the Ultra-Efficient Engine Technology (UEET) Program, Oct. 2003.
2004
  1. H.M. Yun and J.A. DiCarlo “Through-thickness Properties of SiC/SiC Panels with Various Microstructures”, Proceedings of the 28th International Conference on Advanced Ceramics and Composites, January 2004, Cocoa Beach, Florida.
  2. J.A. DiCarlo and R.T. Bhatt: “SiC/SiC Composites for Applications Above 2600oF”, Proceedings of the 28th Annual Conference on Ceramics, Metal &Carbon Composites, Materials and Structures, January 2004, Cape Canaveral, Florida.
  3. J.A. DiCarlo, H.M. Yun, and J.B. Hurst: Fracture Mechanisms for SiC Fibers and SiC/SiC Composites under Stress-Rupture Conditions at High Temperatures. Applied Mathematics and Computation, 152 (2004), 473-481.
  4. J.A. DiCarlo, H-M. Yun, G.N. Morscher, and R.T. Bhatt, “SiC/SiC Composites for 1200oC and above”, NASA/TM-2004-213048, 2004.
  5. DiCarlo, James A., et al.: High-Performance SiC/SiC Ceramic Composite Systems Developed for 1315 *C (2400 *F) Engine Components. Research & Technology 2003, NASA/TM–2004-212729, 2004, pp. 1213. http://www.grc.nasa.gov/WWW/RT/2003/5000/5100dicarlo.html
  6. Bhatt, Ramakrishna T.; and DiCarlo, James A.: Method Developed for Improving the Thermomechanical Properties of Silicon Carbide Matrix Composites. Research & Technology 2003, NASA/TM–2004-212729, 2004, pp. 2021. http://www.grc.nasa.gov/WWW/RT/2003/5000/5130bhatt.html
  7. DiCarlo, J.A.: Microstructural Optimization of SiC/SiC High Temperature Composites, Proceedings of the Fifth International High Temperature Ceramic Matrix Composites Conference (HTCMC-5), September 2004, Seattle, Washington.
  8. Yun, H.M; DiCarlo, J.A.; and Fox, D.S.: Issues on Fabrication and Evaluation of SiC/SiC Tubes with Various Fiber Architectures, Proceedings of the Fifth International High Temperature Ceramic Matrix Composites Conference (HTCMC-5), September 2004, Seattle, Washington
2005
  1. DiCarlo, J.A.; Yun, H.M.; Morscher, G.N.; and Bhatt, R.T.: SiC/SiC Composites for 1200oC and Above, Handbook of Ceramic Composites, ed. N. Bansal, Kluwer Academic Publishers, Boston, 2005, pp. 77- 98. Also NASA/TM-2004-213048, 2004.
  2. DiCarlo, J.A. and Yun, H.M.: Non-oxide (Silicon Carbide) Fibers, Handbook of Ceramic Composites, ed. N. Bansal, Kluwer Academic Publishers, Boston, 2005, pp. 33- 52.
  3. DiCarlo, J.A.; Yun, H.M.; and Lang, J: Property Modeling for Advanced SiC/SiC Composites with Various Fiber Architectures, Proceedings of the 29th Annual Conference on Ceramics, Metal &Carbon Composites, Materials and Structures, January 2005, Cape Canaveral, Florida.
  4. Yun, H.M; Wheeler, D.; Chen, Y.; and DiCarlo, J.A.: Thermo-Mechanical Properties of Super Sylramic SiC Fibers, Proceedings of the 29th International Conference on Advanced Ceramics and Composites, January 2005, Cocoa Beach, Florida.
  5. Yun, H.M; DiCarlo, J.A.; Bhatt, R.T.; and Jaskowiak, M.H.: Thermostructural Properties of SiC/SiC Panels with 2.5D and 3D Fiber Architectures, Proceedings of the 29th Annual Conference on Ceramics, Metal &Carbon Composites, Materials and Structures, January 2005, Cape Canaveral, Florida.
  6. Yun, H.M; DiCarlo, J.A.; Bhatt, R.T.: Advanced SiC/SiC Ceramic Composites for Air Breathing and Rocket Propulsion Engine Components, Proceedings of JANNAF Conference, Charleston, SC, June 2005.
  7. Verrilli, M.J., DiCarlo, J., Calomino, A.M., Yun, H, and Barnett, T.R., “Hoop Tensile Properties of Ceramic Matrix Composite Cylinders”, Journal of Testing and Evaluation, Sept. 2005.
2006
  1. Lang, J. and DiCarlo, J.A.: “Modeling Creep Effects in Advanced SiC/SiC Composites”, Proceedings of the 30th Annual Conference on Ceramics, Metal & Carbon Composites, Materials and Structures, Cape Canaveral, Florida, January 2006.
  2. DiCarlo, J.A. and Morscher, G.N.: Report No. 1 Task 1 (Proprietary), NASA-RRLW Space Act Agreement 3-801, March, 2006.
  3. DiCarlo, J.A.; Yun, H.M; Bhatt, R.T.; and Morscher, G.N.: “Improved SiC Fibers andComposites”, Project Number: IRD04-11, NASA Glenn IR&D Annual Report, May, 2006.
  4. 4. DiCarlo, J.A. and van Roode, M.: “Ceramic Composite Development for Gas Turbine Engine Hot Section Components”, Paper GT2006-90151, Proceedings of ASME Turbo Expo 2006: Power for Land, Sea and Air, May 8-11, 2006, Barcelona, Spain.
  5. DiCarlo, J.A., Yun, H.M; and Bhatt, R.T.: “Advanced SiC/SiC Ceramic Composite Systems Developed for High-Temperature Structural Applications”. Research & Technology 2005, NASA/TM–2006-214016, 2006, pp. 120-121. http://www.grc.nasa.gov/WWW/RT/2005/
  6. Bhatt, R.T. and DiCarlo, J.A.: Tech Brief entitled “Improving Thermomechanical Properties of SiC/SiC Composites”, 2006.
2007
  1. Lang, J. and DiCarlo, J.A.: “Modeling Creep-Induced Stress Relaxation at the Leading Edge of SiC/SiC Airfoils”, Proceedings of the 31st Annual Conference on Ceramics, Metal & Carbon Composites, Materials and Structures, Cape Canaveral, Florida, January 2007
  2. Morscher, G.N.; DiCarlo, J.A.; Kiser, J.D.; and Yun, H.M.: “The Effect of Fiber Architecture on In-Plain Stress-Strain Behavior in Sylramic-iBN Melt-Infiltrated SiC Matrix Composites”, Proceedings of the 31st Annual Conference on Ceramics, Metal & Carbon Composites, Materials and Structures, Cape Canaveral, Florida, January 2007.
  3. Morscher, G.N.; Yun, H.M.; and DiCarlo, J.A.: “In-Plane Cracking Behavior and Ultimate Strength for 2D Woven and Braided Melt-Infiltrated SiC/SiC Composites Tensile Loaded in Off-Axis Fiber Directions”, J. Am. Ceram. Soc. 90 (2007).
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