D. Spader, K. Maciejewski, H. Ghonem, Distribution of Grain Boundary Carbides in Inconel 617 Subjected to Creep at 900°C and 950°C, Metallurgical and Materials Transactions, A, 10.1007/s11661-020-05798-x, 2020, 1-15.
M. Lapera, D. Spader, H. Ghonem, A Coupled, Physic-Based Matrix-Grain Boundary Model for Creep of Carbide Strengthened Nickel-Based Superalloys – I. Concepts and Formulations. Journal of Materials Science and Engineering, A 769, 2020, 138421.
D. Spader, M. Lapera, H. Ghonem, A Coupled, Physic-Based Matrix-Grain Boundary Model for Creep of Carbide Strengthened Nickel-Based – II. Experimental Results and Model Application. Journal of Materials Science and Engineering, A 769, 2020, 138355.
W. Visser, H. Ghonem, Dynamic Flow Stress of Shock Loaded Low Carbon Steel, Accepted in Journal of Materials Science and Engineering, A 753, 2019, 317-330.
J. Spirdione, H. Ghonem, Dynamic Flow Stress of Fine Grain material Processed Using Equal Channel Angular Pressing, Journal of Materials Science and Engineering, A 698, 2017, 256-267.
W. Visser, H. Ghonem, Twin Nucleation in Cold Rolled Low Carbon Steel, Journal of Materials Science and Engineering, A 687, 2017, 28-38.
J. Spirdione, W. Visser, K. Maciejewski and H. Ghonem, Role of Pearlite Colonies on Dynamic Flow Stress of Low Carbon Steel, Journal of Materials Science and Engineering, A 679, 2017, 446-454.
K. Maciejewski, H. Ghonem, Isotropic and Kinematic Hardening as Explicit Functions of Gamma Prime Precipitates in a Nickel-Based Superalloy, International Journal of Fatigue, Volume 68, November 2014, 123-135.
K. Maciejewski, J. Dahal, Y. Sun, H. Ghonem, Creep-Environment Interactions in Dwell-Fatigue Crack Growth of Nickel Based Superalloys, Metallurgical and Materials Transactions A, DOI 10.1007/s11661-014-2199-z, February 2014
K. Maciejewski, M. Jouiad, H. Ghonem, Dislocation/Precipitate Interactions in IN100 at 650°C, Materials Science and Engineering A, 582, 2013, 47-54
Y. Sun, K. Maciejewski, H. Ghonem, A Damage Based Cohesive Zone Model of Intergranular Crack Growth in a Nickel-Based Superalloy, International Journal of Damage Mechanics, 22(6), 2013, 905-923
J. Dahal, K. Maciejewski, H. Ghonem, Loading Frequency and Microstructure Interactions in Intergranular Fatigue Crack Growth in a Disk Ni-Based Superalloy, International Journal of Fatigue, 57, 2013, 93-102
K. Maciejewski, H. Ghonem, Influence of Continuum Precipitates on Intergranular Fatigue Crack Growth of a P/M Nickel-Based Superalloy, Materials Science and Engineering A, 560, January 2013, 439-449
Y. Sun, K. Maciejewski, H. Ghonem, Simulation of Viscoplastic Deformation of Low Carbon Steel Structures at Elevated Temperatures, Journal of Materials Engineering and Performance, 21(7), 2012, 1151-1159
K. Maciejewski, Y. Sun, O. Gregory, H. Ghonem, Time-Dependent Deformation of Low Carbon Steel at Elevated Temperatures, Materials Science and Engineering A, 534, 2012, 147-156
J. Dahal, K. Maciejewski, H. Ghonem, Grain Boundary Deformation and Damage Mechanisms in Dwell Fatigue Crack Growth in Turbine Disk Superalloy ME3, Superalloys 2012, ed. E.S. Huron et al., The Minerals, Metals and Materials Society, 2012, 2012, 149-158.
K. Maciejewski, H. Ghonem, Relative Contributions of Secondary and Tertiary γ’ Precipitates to Intergranular Crack Growth Resistance in IN100 Alloy, Superalloys 2012, ed. E.S. Huron et al., The Minerals, Metals and Materials Society, 2012, 421-430.
W. Visser, Y. Sun, O. Gregory, G. Plume, C-E. Rousseau, H. Ghonem, Deformation Characteristics of Low Carbon Steel Subjected to Dynamic Impact Loading, Material Science and Engineering A, 528(27), October 2011, 7857-7866
H. Ghonem, Microstructure and Fatigue Crack Growth Mechanisms in High Temperature Titanium Alloys, Int. J. Fatigue, 32, 2010, 1448-1460
O. Gregory, J. Oxley, J. Smith, M. Platek, J. Smith, M. Downey, C. Cummiskey, E. Bernier , H. Ghonem, Microstructural Characterization of Pipe Bomb Fragments, Materials Characterization, 61(3), March 2010, 347-354
F. Sansoz, M. Almesalamy and H. Ghonem, Effects of High Temperature Exposure on the Tensile Ductility of an Aged Beta Titanium, Metallurgical and Materials Transactions A, 35, 2004, 3113-3129
F. Sansoz and H. Ghonem, Fatigue Crack Growth Mechanisms in Ti6242 Lamellar Microstructures: Influence of Loading Frequency and Temperature, Metallurgical and Materials Transactions A, 34, 2003, 2565-2577
F. Sansoz and H. Ghonem, Effects of Loading Frequency on Fatigue Crack Growth Mechanisms in α/β Ti Microstructure with Large Colony Size, Materials Science and Engineering A, 356(1-2), 2003, 81-92
N. Chandra, H. Li, C. Shet and H. Ghonem, Some Issues in the Application of Cohesive Zone Models for Metal–Ceramic Interfaces, Journal of Solids and Structures, 39(10), 2002, 2827-2855
A. Zaki and H. Ghonem, A Model for Fatigue Crack Initiation from Notches, ASME- NDE, 21, 2001, 49
N. Chandra and H. Ghonem, Interfacial Mechanics of Push-Out Tests: Theory and Experiments, Composites Part A: Applied Science and Manufacturing, 32(3-4), 2001, 575-584
D. Osborne, N. Chandra and H. Ghonem, Elevated Temperature Interphase Properties of Titanium Matrix Composites, Composites Part A: Applied Science and Manufacturing, 32(3-4), 2001, 545-553
M. N. Tamin and H. Ghonem, Fatigue Damage Mechanisms of Bridging Fibers in Titanium Metal Matrix Composites, Engineering Materials and Technology, 122(4), 2000, 370
H. Ghonem, Fiber Fracture Criterion in Titanium Metal Matrix Composites at Elevated Temperature, Advancing with Composites, AMME-CANICA, 2000, 37
H. Ghonem, Model for Fracture of Bridging Fibers in Titanium Metal Matrix Composites, ASME- MD, 86, 1999, 87-93
M. N. Tamin, D. J. Osborne and H. Ghonem, A Processing Related Interface Properties in Titanium Metal Matrix Composites, Ceramic and Metal Matrix Composites, Part 1, 1997, 639-650
M. N. Tamin, and H. Ghonem, Fiber Damage Mechanisms in Titanium Metal Matrix Composites, ASME-Materials Division Publication MD 74, 1996, 115
H. Ghonem, IBridging Fiber Stress in Metal Matrix Composites – An Analytical Model, ASME- Aerospace Division Publication AD 51, 1996, 489
M. N. Tamin, D. J. Osborne and H. Ghonem, Interphase Shear Strength of Titanium Metal Matrix Composites at elevated Temperature, ASME- Aerospace Division Publication AD 51, 1996, 241
M. N. Tamin, D. J. Osborne and H. Ghonem, Influence of Interfacial Properties on Fiber Debonding in Titanium Metal Matrix Composites, Fatigue and Fracture at Elevated Temperature, ASME-AD, 50, 1996, 121-134
M. N. Tamin and H. Ghonem, Evolution of Bridging Fiber Stress in Titanium Metal Matrix Composites at Elevated Temperature, Advances in Fatigue Lifetime Predictive Techniques, ASTM STP 1292, 1996, 24-38
D. Zheng and H. Ghonem, High Temperature/High Frequency Fatigue Crack Growth Damage Mechanisms in Titanium Metal Matrix Composites, ASTM STP 1253, 1996, 137-163
T. Zhang and H. Ghonem, Time-Dependent Fatigue Crack Growth of Titanium Metal Matrix Composites, Fatigue and Fracture of Engineering Materials, 18(11), 1995, 1231-1366
A. Madsen, and H. Ghonem, Separating the Effects of Aluminide and Silicide Precipitation on the Tensile and Crack Growth Behavior at Room Temperature and 593oC in a Near-α Titanium Alloy, J of Materials Performance and Technology, 4(3), 1995, 301-308
A. H. Rosenberger and H. Ghonem, Influence of Creep-Fatigue Interaction on High Temperature Fatigue Crack Growth Behavior of Ti-1100, Journal of Fatigue, 17(6), 1995, 449
A.H. Rosenberger, A. Madsen and H. Ghonem, Aging Effects on the Creep Behavior of the Near-Alpha Titanium Alloy Ti-1100, Journal of Materials Performance and Technology, 4(2), 1995, 182-188
D. Zheng and H. Ghonem, High Temperature Fatigue Crack Growth in σ1240/Timetal-21S Composite, Metallurgical Transactions A, 26A(9), 1995, 2193-2488
M. Tamin, D. Zheng and H. Ghonem, Time-Dependent Stress Analysis in Fiber-Reinforced Metal Matrix Composites -Modeling and Applications, J. Comp. Technology and Research, V. 16, No. 4, pp. 314-322, 1994
A. H. Rosenberger and H. Ghonem, High Temperature Elastic-Plastic Small Crack Growth Behavior in a Nickel-Base Superalloy, Fatigue and Fracture of Engrg Materials & Structures, 17(5), 1994, 509-522
A. H. Rosenberger and H. Ghonem, Influence of Creep-Fatigue Interaction on High Temperature Fatigue Crack Growth of Ti-1100, Fatigue and Fracture of Engrg Materials & Structures, 17(4), 1994, 397-410
H. Ghonem, Y. Wen and D. Zheng, An Interactive Simulation Technique to Determine the Internal Stress States in Fiber Reinforced Titanium Metal Matrix Composites, Materials Science and Engineering, A177, 1994, 125-134
A. Madsen and H. Ghonem, Effects of Aging on the Tensile and Fatigue Behavior of the Near-α Ti-1100 at both Room Temperature and 593oC, Material Science and Engineering, A177, 1994, 63-77
H. Ghonem, Y. Wen and D. Zheng, Fatigue Crack Growth Characteristics of Ti-β21S Neat Laminate, in “Damage in Composite Materials”, ed. G. Z. Voyiadjis, Studies in Applied Mechanics 34, Elsevier Science Publishers Ltd., New York, 1993, 161-180
A. Madsen, E. Andrieu and H. Ghonem, Microstructural Changes During Aging of a Silicon Containing Near-α Titanium Alloy, Materials Science and Engineering, A171, 1993, 191-197
R. Foerch, A. Madsen and H. Ghonem, Environmental Interactions in High Temperature Fatigue Crack Growth of Ti-1100, Metallurgical Transaction, 24A, 1993, 1321-1332
H. Ghonem, T. Nicholas and A. Pineau, Elevated Temperature Fatigue Crack Growth in Alloy 718 – Part II: Effects of Environmental and Material Variables, Fatigue and Fracture of Engrg Materials & Structures, 16(6), 1993, 577-591
H. Ghonem, T. Nicholas and A. Pineau, Elevated Temperature Fatigue Crack Growth in Alloy 718 – Part I: Effects of Mechanical Variables, Fatigue and Fracture of Engrg Materials & Structures, 16(5), 1993, 565-577
D. Zheng, A. Rosenberger and H. Ghonem, Role of Pre-Deformation in the Modification of Crack Tip Oxidation Resistance, American Society of Mechanical Engineers International Gas turbine and Aero-engine Congress and Exposition, 1993, 3C
D. Zheng, A. Rosenberger and H. Ghonem, Influence of Pre-straining on High Temperature Low Frequency Fatigue Crack Growth in Superalloys, Materials Science and Engineering, A161, 1993, 13-21
H. Ghonem, Y. Wen, M. Thompson and G. Linsey, Effects of Temperature and Frequency on Fatigue Crack Growth in Ti-β21S Monolithic Laminate, Materials Science and Engineering, A161, 1993, 45-53
D. Zheng and H. Ghonem, Influence of Prolonged Thermal Exposure at 650oC on Intergranular Fatigue Crack Growth Behavior in Alloy 718, Metallurgical Transactions, 23A, 1992, 3169-3171
H. Ghonem and D. Zheng, Frequency Interaction on High Temperature Fatigue Crack Growth in Alloy 718, Metallurgical Transactions, 23A, 1992, 3067-3072
A. H. Rosenberger and H. Ghonem, Effect of Cycle Mean Strain on Small Crack Growth in Alloy 718 at Elevated Temperatures, Fatigue and Fracture of Engrg Materials & Structures, 11(15), 1992, 1125-1139
E. Andrieu, R. Mollins, H. Ghonem and A. Pineau, Intergranular Crack Tip Oxidation Mechanisms in A Nickel-Based Superalloy, Materials Science and Engineering, A154, 1992, 21-28
H. Ghonem and D. Zheng, Depth of Intergranular Oxygen Diffusion During Environment-Dependent Fatigue Crack Growth in Alloy 718, Materials Science and Engineering, A150, 1992, 151-160
H. Ghonem A. Pineau and T. Nicholas, Analysis of Elevated Temperature Fatigue Crack Growth Mechanisms in Alloy 718, American Society of Mechanical Engineers, Materials Division, Publication MD 21, 1991, 1
H. Ghonem and R. Foerch, Environmental Effects on Elevated Temperature Fatigue Crack Growth in a Near-α Ti-1100 Alloy, Material Science and Engineering, A138, 1991, 69-81
H. Ghonem and M. Zheng, Prediction of Fatigue Crack Growth Under Single Overload Application in Ti-6Al-4V, Fatigue and Fracture of Engrg Materials & Structures, 4(8), 1991, 805-814
D. Zheng and H. Ghonem, Oxidation-Assisted Fatigue Crack Growth Behavior in Alloy 718 – Part II: Application, Fatigue and Fracture of Engrg Materials & Structures, 14(7), 1991, 761-768
H. Ghonem and D. Zheng, Oxidation-Assisted Fatigue Crack Growth Behavior in Alloy 718 – Part I: Quantitative Modeling, Fatigue and Fracture of Engrg Materials & Structures, 14(7), 1991, 749-761
E. Andrieu, H. Ghonem and A. Pineau, Two-Stage Crack Tiop Oxidation Mechanism in Alloy 718, American Society of Mechanical Engineers, Materials Division, Publication MD 18, 1990, 25
H. Ghonem and R. Foerch, Frequency Effects on Fatigue Crack Growth Behavior in a Near-a Titanium Alloy, American Society of Mechanical Engineers, Materials Division, Publication MD 18, 1990, 93
H. Ghonem, Constant-Probability Crack Growth Curves, Engrg Fracture Mechanics, 30(5), 1988, 685-699
H. Ghonem and J. Kalousek, Study of Surface Crack Initiation Due to Biaxial Compression/Shear Loading, Engrg Fracture Mechanics, 30(5), 1988, 667-683
H. Ghonem and S. Dore, Experimental Study of the Constant Probability Crack Growth Curves Under Constant Amplitude Loading, Engrg Fracture Mechanics, 27(1), 1987, 1-25
H. Ghonem and S. Dore, Probabilistic Description of Fatigue Crack Growth in Polycrystalline Solids, Engrg Fracture Mechanics, 21(6), 1985, 1151-1168
H. Ghonem and J. Kalousek, Quantitative Model to Estimate Rail Surface Failure, Wear, 97, 1984, 65-81
D. Parsons, J. Kalousek and H. Ghonem, Effects of Streaks on Fracture Toughness of Steel, Canadian Metallurgical Quarterly, 21(1), 1982, 25-30
H. Ghonem, Fatigue Life Estimation of the Longitudinal Crack in Rail Steel, Canadian Congress of Applied Mechanics, 1981, 439
H. Ghonem and J. W. Provan, Micromechanics Theory of Fatigue Crack Initiation and Propagation, Engrg Fracture Mechanics, 13(4), 1981, 963-977
H. Ghonem, R. Gonsalves, and G. Bartley, Comparative Performance of Type II Designs, ASME Transactions, 80-RT-8, March 1979, 1-16
H. Ghonem and J. W. Provan, Microstress Distributions in Single Silicon Crystals, Canadian Metallurgical Quarterly, 16(3), 1977, 319-326