Development of Structural Steel with Higher Blast\/Thermal Resistance<\/b>, <\/b>Hamouda Ghonem, DHS Center of Excellence for Explosive Detection, Mitigation and Response, Department of Homeland Security, August 2012.<\/p>\n
Mechanistic Modeling of Dwell Fatigue Crack Growth in P\/M Nickel-Based Superalloys using a Cohesive Zone Approach – Durable High Temperature Disk Material<\/b>, Hamouda Ghonem, University of Rhode Island, David McDowell, Georgia Tech, Michael Mills & Yunzhi Wang, Ohio State University, Somnath Ghosh, Johns Hopkins University, Air Force, Final Report- FA8650-06-2-5211, December 2011.<\/p>\n
Deformation and Hardening Characteristics of Low Carbon Steel at Elevated Temperature: Fire and Post Fire Behavior and Numerical Applications<\/b>,<\/b> Kimberly Maciejewski, Yaofeng Sun, Otto Gregory, Hamouda Ghonem, FM Global, Norwood, MA \u2013 Final Report: June , 2000.<\/p>\n
Development of Creep-Fatigue Crack growth Model for Advanced P\/M Superalloy Disk Materials<\/b>, J. Segala, H. Ghonem, Pratt & Whitney, East Hartford, CT, June 2006.<\/p>\n
Experimental and Computational Study of Interphase Properties and Mechanics in Titanium Metal Matrix Composites at Elevated Temperatures<\/b>, D. Osborne and H. Ghonem, USAF Office of Scientific Research, AFOSR, DC 20332,Grant AFOSR-F49620-99-1-0275, March 2005.<\/p>\n
Fatigue Crack Growth Mechanisms in Fully Lamellar Ti6242 Alloy at 520o<\/sup>C<\/b>, <\/b>F. Sansoz and H. Ghonem , <\/b>SNECMA Moteurs, Centre de Villaroche 77550 Moissy-Cramayel \u2013 France, December 2001.<\/p>\n High-Temperature Fatigue Crack Growth Damage Mechanisms of Fully Lamellar Ti6242<\/b>,<\/b> F. Sansoz and H. Ghonem, SNECMA, Moteurs,Centre de Villaroche 77550 Moissy-Cramayel \u2013 France, November 2001.<\/p>\n Influence of heat treatment on the mechanical properties of Ti6242 alloy<\/b>,<\/b> F. Sansoz and H. Ghonem, SNECMA Moteurs, Centre de Villaroche 77550 Moissy-Cramayel \u2013 France, August 2000.<\/p>\n Modeling of Interfacial Fracture Mechanisms in Bimaterial Systems at Elevated Temperatures Using Experimental and Computational Methods<\/b>, H. Ghonem and N. Chandra, USAF Office of Scientific Research, September 2000.<\/p>\n Durability and Damage Tolerance of High Temperature Advanced Titanium Metal Matrix Composites- Part I<\/b>,<\/b> H. Ghonem, USAF Office of Scientific Research, September 1998.<\/p>\n Durability and Damage Tolerance of High Temperature Advanced Titanium Metal Matrix Composites- Part II<\/b>, H. Ghonem, USAF Office of Scientific Research, August 1999.<\/p>\n Experimental Study of Localized Damage in \u03b221S Titanium Metal Matrix Composites at Elevated Temperature Conditions,<\/b> D. Osborne and H. Ghonem, Final Report, submitted to USAF Office of Scientific Research, USAF Office of Scientific Research, Washington, DC, Sept 1997.<\/p>\n Experimental Study of Localized Damage in \u03b221S Titanium Metal Matrix Composites at Elevated Temperature Conditions<\/b>,<\/b> D. Osborne and H. Ghonem, Annual Report, submitted to USAF Office of Scientific Research, USAF Office of Scientific Research, Washington, DC, June 1996.<\/p>\n Fatigue Crack Growth Mechanisms in Titanium Metal Matrix Composites<\/b>,<\/b> H. Ghonem, Final Report, USAF Office of Scientific Research, Washington, DC, March 1996.<\/p>\n High \u2013 temperature Interphase Behavior of SiC Fiber Reinforced Titanium Matrix Composites<\/b>,<\/b> D. Osborne and H. Ghonem, Annual Report, USAF Office of Scientific Research, Washington, DC, March 1995.<\/p>\n Aspects of High Temperature Damage in Fiber Reinforced Titanium Metal Matrix Composites<\/b>,<\/b> H. Ghonem and D. Zheng, USAF Office of Scientific Research, Washington, DC, July 1993.<\/p>\n Environmental Interactions in High Temperature Fatigue Crack Growth of Ti-1100 Part I: Quantitative Analysis<\/b>, R. Foerch, A. Madsen and H. Ghonem, Titanium Metals Corporation of America, Henderson, Nevada, May 1992.<\/p>\n Mechanisms and Modeling of Environment-Dependent Fatigue Crack Growth in A Nickel-Based Superalloy<\/b>,<\/b> H. Ghonem and D. Zheng, USAF Office of Scientific Research, Washington, DC, October 1991.<\/p>\n Quantitative Modeling of Oxidation-Assisted Crack Growth Behavior in Alloy 718<\/b>,<\/b> H. Ghonem and D. Zheng. United Technologies Corporation, Pratt & Whitney Group and Department of Air Force, Air Force Office of Scientific Research, January 1990.<\/p>\n Experimental Observations of Oxidation-Assisted Crack Growth Behavior in Alloy 718<\/b>, <\/b>H. Ghonem, E. Andrieu and A. Pineau. United Technologies Corporation, Pratt & Whitney Group and Department of Air Force, Air Force Office of Scientific Research, January 1990.<\/p>\n Probabilistic Description of Fatigue Crack Growth Under Constant- and Variable-Amplitude Loading,<\/b> H. Ghonem and M. Zeng, USAF Office of Scientific Research, Washington, DC, March 1990.<\/p>\n Probabilistic Description of Fatigue Crack growth During Crack Propagation Stage in Polycrystalline Solids<\/b>, H. Ghonem and S. Dore. USAF Office of Scientific Research, Washington, DC, December 1985.<\/p>\n Experimental Study of Biaxial Fatigue under Rolling Contact Loading Conditions,<\/b> H. Ghonem and S. Kumar. Association of American Railroads, Chicago, IL, August 1985.<\/p>\n Experimental Study of Cyclic-Ratchetting Damage in Pearlitic Rail Steel<\/b>, H. Ghonem and S. Kamath. Association of American Railroads, Chicago, IL, August 1985.<\/p>\n Critical Topics for Fatigue and Fracture Research<\/b>, H. Ghonem. Industrial Materials Research Institute, National Research Council, Montreal, Canada, August 1983.<\/p>\n Wear and Fatigue Model for Railway Rail Subjected to Heavy Traffic Conditions and Different Lubrication Regimes<\/b>, H. Ghonem. Association of American Railroads, Chicago, IL, October 1982.<\/p>\n Performance of the Experimental Baintic Chromium-Molybdenum Steel<\/b>, H. Ghonem. Research Department, Canadian Pacific Limited, Montreal, Canada, April 1982.<\/p>\n Development of High Strength Weldable Chromium-Molybdenum Steel<\/b>, H. Ghonem and J. Kalousek , Canadian Pacific Limited, Montreal, Canada, Report S571-78, July 1978.<\/p>\n Analysis of Welded Carbon Steel,<\/b> H. Ghonem. , Canadian Pacific Limited, Montreal, Canada, Report S639-80, May 1980.<\/p>\n Analysis of the Russian P-65 Steel<\/b>, H.Ghonem, Canadian Pacific Limited, Montreal, Canada, Report S606-79, October 1979.<\/p>\n Evaluation of Recommended Procedure for Welding 1% British Cr Steel<\/b>, H. Ghonem, Canadian Pacific Limited, Montreal, Canada, Report S594-79, August 1979.<\/p>\n Crack Initiation Study on Bolster of 100-Ton Coal Car<\/b>, H. Ghonem, Canadian Pacific Limited, Montreal, Canada, Report S561-78, March 1978.<\/p>\n