Development of Structural Steel with Higher Blast/Thermal Resistance, Hamouda Ghonem, DHS Center of Excellence for Explosive Detection, Mitigation and Response, Department of Homeland Security, August 2012.

Mechanistic Modeling of Dwell Fatigue Crack Growth in P/M Nickel-Based Superalloys using a Cohesive Zone Approach – Durable High Temperature Disk Material, 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.

Deformation and Hardening Characteristics of Low Carbon Steel at Elevated Temperature: Fire and Post Fire Behavior and Numerical Applications, Kimberly Maciejewski, Yaofeng Sun, Otto Gregory, Hamouda Ghonem, FM Global, Norwood, MA – Final Report: June , 2000.

Development of Creep-Fatigue Crack growth Model for Advanced P/M Superalloy Disk Materials, J. Segala, H. Ghonem, Pratt & Whitney, East Hartford, CT, June 2006.

Experimental and Computational Study of Interphase Properties and Mechanics in Titanium Metal Matrix Composites at Elevated Temperatures, D. Osborne and H. Ghonem, USAF Office of Scientific Research, AFOSR, DC 20332,Grant AFOSR-F49620-99-1-0275, March 2005.

Fatigue Crack Growth Mechanisms in Fully Lamellar Ti6242 Alloy at 520^oC, F. Sansoz and H. Ghonem , SNECMA Moteurs, Centre de Villaroche 77550 Moissy-Cramayel – France, December 2001.

High-Temperature Fatigue Crack Growth Damage Mechanisms of Fully Lamellar Ti6242, F. Sansoz and H. Ghonem, SNECMA, Moteurs,Centre de Villaroche 77550 Moissy-Cramayel – France, November 2001.

Influence of heat treatment on the mechanical properties of Ti6242 alloy, F. Sansoz and H. Ghonem, SNECMA Moteurs, Centre de Villaroche 77550 Moissy-Cramayel – France, August 2000.

Modeling of Interfacial Fracture Mechanisms in Bimaterial Systems at Elevated Temperatures Using Experimental and Computational Methods, H. Ghonem and N. Chandra, USAF Office of Scientific Research, September 2000.

Durability and Damage Tolerance of High Temperature Advanced Titanium Metal Matrix Composites- Part I, H. Ghonem, USAF Office of Scientific Research, September 1998.

Durability and Damage Tolerance of High Temperature Advanced Titanium Metal Matrix Composites- Part II, H. Ghonem, USAF Office of Scientific Research, August 1999.

Experimental Study of Localized Damage in β21S Titanium Metal Matrix Composites at Elevated Temperature Conditions, D. Osborne and H. Ghonem, Final Report, submitted to USAF Office of Scientific Research, USAF Office of Scientific Research, Washington, DC, Sept 1997.

Experimental Study of Localized Damage in β21S Titanium Metal Matrix Composites at Elevated Temperature Conditions, D. Osborne and H. Ghonem, Annual Report, submitted to USAF Office of Scientific Research, USAF Office of Scientific Research, Washington, DC, June 1996.

Fatigue Crack Growth Mechanisms in Titanium Metal Matrix Composites, H. Ghonem, Final Report, USAF Office of Scientific Research, Washington, DC, March 1996.

High – temperature Interphase Behavior of SiC Fiber Reinforced Titanium Matrix Composites, D. Osborne and H. Ghonem, Annual Report, USAF Office of Scientific Research, Washington, DC, March 1995.

Aspects of High Temperature Damage in Fiber Reinforced Titanium Metal Matrix Composites, H. Ghonem and D. Zheng, USAF Office of Scientific Research, Washington, DC, July 1993.

Environmental Interactions in High Temperature Fatigue Crack Growth of Ti-1100 Part I: Quantitative Analysis, R. Foerch, A. Madsen and H. Ghonem, Titanium Metals Corporation of America, Henderson, Nevada, May 1992.

Mechanisms and Modeling of Environment-Dependent Fatigue Crack Growth in A Nickel-Based Superalloy, H. Ghonem and D. Zheng, USAF Office of Scientific Research, Washington, DC, October 1991.

Quantitative Modeling of Oxidation-Assisted Crack Growth Behavior in Alloy 718, H. Ghonem and D. Zheng. United Technologies Corporation, Pratt & Whitney Group and Department of Air Force, Air Force Office of Scientific Research, January 1990.

Experimental Observations of Oxidation-Assisted Crack Growth Behavior in Alloy 718, 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.

Probabilistic Description of Fatigue Crack Growth Under Constant- and Variable-Amplitude Loading, H. Ghonem and M. Zeng, USAF Office of Scientific Research, Washington, DC, March 1990.

Probabilistic Description of Fatigue Crack growth During Crack Propagation Stage in Polycrystalline Solids, H. Ghonem and S. Dore. USAF Office of Scientific Research, Washington, DC, December 1985.

Experimental Study of Biaxial Fatigue under Rolling Contact Loading Conditions, H. Ghonem and S. Kumar. Association of American Railroads, Chicago, IL, August 1985.

Experimental Study of Cyclic-Ratchetting Damage in Pearlitic Rail Steel, H. Ghonem and S. Kamath. Association of American Railroads, Chicago, IL, August 1985.

Critical Topics for Fatigue and Fracture Research, H. Ghonem. Industrial Materials Research Institute, National Research Council, Montreal, Canada, August 1983.

Wear and Fatigue Model for Railway Rail Subjected to Heavy Traffic Conditions and Different Lubrication Regimes, H. Ghonem. Association of American Railroads, Chicago, IL, October 1982.

Performance of the Experimental Baintic Chromium-Molybdenum Steel, H. Ghonem. Research Department, Canadian Pacific Limited, Montreal, Canada, April 1982.

Development of High Strength Weldable Chromium-Molybdenum Steel, H. Ghonem and J. Kalousek , Canadian Pacific Limited, Montreal, Canada, Report S571-78, July 1978.

Analysis of Welded Carbon Steel, H. Ghonem. , Canadian Pacific Limited, Montreal, Canada, Report S639-80, May 1980.

Analysis of the Russian P-65 Steel, H.Ghonem, Canadian Pacific Limited, Montreal, Canada, Report S606-79, October 1979.

Evaluation of Recommended Procedure for Welding 1% British Cr Steel, H. Ghonem, Canadian Pacific Limited, Montreal, Canada, Report S594-79, August 1979.

Crack Initiation Study on Bolster of 100-Ton Coal Car, H. Ghonem, Canadian Pacific Limited, Montreal, Canada, Report S561-78, March 1978.