[31] Morand LM, Pataky GJ. “Vector characterization approach for inherent strain modeling of laser powder bed fusion manufacturing” Rapid Prototyping Journal, (2025) https:\/\/doi.org\/10.1108\/RPJ-10-2024-0417<\/p>\n
[30] Elbrecht B, Pataky GJ. “In-Situ Measurement of Creep Mechanisms at a High Temporospatial Resolution” Experimental Techniques<\/em>, (2025). https:\/\/doi.org\/10.1007\/s40799-025-00811-7\u00a0<\/p>\n [29] Pizano LFL, Sridar S, De Vecchis RR, Wang X, Biddlecom J, Pataky GJ, Sudbrack C, Xiong W. “Recrystallization behavior and mechanical properties of Haynes 282 fabricated by wire-arc additive manufacturing with post-heat treatment” Journal of Manufacturing Processes,<\/em> 119, pp. 781-789 (2024) https:\/\/doi.org\/10.1016\/j.jmapro.2024.04.015<\/p>\n [28] Biddlecom J, Li Y, Zhao X, Berfield TA, Pataky GJ. “Femtosecond Laser Shock Peening Residual Stress and Fatigue Life of Additive Manufactured AlSi10Mg” JOM<\/em>, 75(6), pp. 1964-1974, (2023) doi:10.1007\/s11837-023-05820-8<\/p>\n [27] Kessler HD, Conway KM, Redmond LM, Pataky GJ. “Design and cyclic testing of a gusset plate connection for precast concrete buckling-restrained braced frames” PCI Journal<\/em>, 68(2)(2023) doi:10.15554\/pcij68.2-03<\/p>\n [26] Morand LM, Summers JD, Pataky GJ. “Repurposing metal additive manufacturing support structures for reduction of residual stress deformation” The International Journal of Advanced Manufacturing Technology<\/em>, 119, pp. 3963-3973, (2022)\u00a0<\/p>\n [25] Morand LM, Miller M, Pataky GJ, Johnson S, Summers JD. “Advances in Build Plate Design to Reduce Additive Manufacturing Cost and Development Time” Journal of the Gas Turbine Society of Japan<\/em>, 50(2), pp. 104-109, (2022)<\/p>\n [24] Fitzgerald KM, Berfield TA, Torbati-Sarraf H, Pataky GJ. “Compressive creep buckling of single cell metamaterial at elevated temperatures” Fatigue & Fracture of Engineering Materials & Structures<\/em>, 46(2), pp. 366-378, (2022)<\/p>\n [23] De Vecchis RR, Wang X, Sridar S, Wang Z, Pataky GJ, Xiong W. “Introducing Heusler intermetallics for synergic effect of grain refinement and precipitation strengthening in high-strength low-alloy steels” Journal of Alloys and Compounds<\/em>, 904, pp. 163885, (2022)<\/p>\n [22] Conway KM, Romanick Z, Cook LM, et al. “The Anisotropic Yield Surface of Cellular Materials” JOM<\/em>, Published online 2022, pp. 1-8, (2022)<\/p>\n [21] Conway KM, Pataky GJ. “Aramid Fiber Surface Area Impact on Elastomer Crack Growth” Experimental Mechanics<\/em>, 62(9), pp. 1647-1654, (2022)<\/p>\n [20] Williams WM, Shabani M, Jablonski PD, Pataky GJ. “Fatigue crack growth behavior of the quaternary 3d transition metal high entropy alloy CoCrFeNi” International Journal of Fatigue<\/em>, 148, pp. 106232, (2021)<\/p>\n [19] Smith BA, Laursen CM, Bartanus J, Carroll JD, Pataky GJ. “The interplay of geometric defects and porosity on the mechanical behavior of additively manufactured components” Experimental Mechanics<\/em>, 61, pp. 685-698, (2021)<\/p>\n [18] Lee H, Shabani M, Pataky GJ, Abdeljawad F. “Tensile deformation behavior of twist grain boundaries in CoCrFeMnNi high entropy alloy bicrystals” Scientific reports<\/em>, 11(1), pp. 428, (2021)<\/p>\n [17] Conway KM, Kunka C, White BC, Pataky GJ, Boyce BL. “Increasing fracture toughness via architected porosity” Materials & Design<\/em>, 205, pp. 109696, (2021)<\/p>\n [16] Torbati-Sarraf H, Shabani M, Jablonski PD, Pataky GJ, Poursaee A. “The influence of incorporation of Mn on the pitting corrosion performance of CrFeCoNi High Entropy Alloy at different temperatures” Materials & Design<\/em>, 184, pp. 108170, (2019)<\/p>\n [15] Shabani M, Indeck J, Hazeli K, Jablonski PD, Pataky GJ. “Effect of strain rate on the tensile behavior of CoCrFeNi and CoCrFeMnNi high-entropy alloys” Journal of Materials Engineering and Performance<\/em>, 28, pp. 4348-4356, (2019)<\/p>\n [14] Conway KM, Pataky GJ. “Crazing in additively manufactured acrylonitrile butadiene styrene” Engineering Fracture Mechanics<\/em>, 211, pp. 114-124, (2019)<\/p>\n [13] Abarotin CA, Myers OJ, Pataky GJ. “Low velocity impact of bistable laminated CFRP composites” Journal of Dynamic Behavior of Materials<\/em>, 5, pp. 432-443, (2019)<\/p>\n [12] Conway KM, Pataky GJ. “Effective area method for calculating global properties of cellular materials” Materials Today Communications<\/em>, 17, pp. 144-152, (2018)<\/p>\n [11] Luccarelli PG, Pataky GJ, Sehitoglu H, Foletti S. “Finite element simulation of single crystal and polycrystalline Haynes 230 specimens” International Journal of Solids and Structures<\/em>, 115, pp. 270-278, (2017)<\/p>\n [10] Rabbolini S, Pataky GJ, Sehitoglu H, Beretta S. “Fatigue crack growth in Haynes 230 single crystals: an analysis with digital image correlation” Fatigue & Fracture of Engineering Materials & Structures<\/em>, 38(5), pp. 583-596, (2015)<\/p>\n [9] Pataky GJ, Sehitoglu H. “Experimental methodology for studying strain heterogeneity with microstructural data from high temperature deformation” Experimental Mechanics<\/em>, 55, pp. 53-63, (2015)<\/p>\n [8] Pataky GJ, Ertekin E, Sehitoglu H. “Elastocaloric cooling potential of NiTi, Ni2FeGa, and CoNiAl” Acta Materialia<\/em>, 96, pp. 420-427, (2015)<\/p>\n [7] Rabbolini S, Pataky GJ, Sehitoglu H, Beretta S. “Anisotropic stress intensity factor ranges measurements with DIC” Procedia materials science<\/em>, 3, pp. 2104-2110, (2014)<\/p>\n [6] Pataky GJ, Sehitoglu H, Maier HJ. “High temperature fatigue crack growth of Haynes 230” Materials Characterization<\/em>, 75, pp. 69-78, (2013)<\/p>\n [5] Pataky GJ, Sehitoglu H, Maier HJ. “Creep deformation and mechanisms in Haynes 230 at 800 C and 900 C” Journal of nuclear materials<\/em>, 443(1-3), pp. 484-490, (2013)<\/p>\n [4] Gross DW, Nygren K, Pataky GJ, Kacher J, Sehitoglu H, Robertson IM. “The evolved microstructure ahead of an arrested fatigue crack in Haynes 230” Acta materialia<\/em>, 61(15), pp. 5768-5778, (2013)<\/p>\n [3] Sangid MD, Pataky GJ, Sehitoglu H, Hamilton RF, Maier HJ. “High resolution analysis of opening and sliding in fatigue crack growth” International Journal of Fatigue<\/em>, 37, pp. 134-145, (2012)<\/p>\n [2] Pataky GJ, Sangid MD, Sehitoglu H, Hamilton RF, Maier HJ, Sofronis P. “Full field measurements of anisotropic stress intensity factor ranges in fatigue” Engineering Fracture Mechanics<\/em>, 94, pp. 13-28, (2012)<\/p>\n [1] Sangid MD, Pataky GJ, Sehitoglu H, Rateick RG, Niendorf T, Maier HJ. “Superior fatigue crack growth resistance, irreversibility, and fatigue crack growth\u2013microstructure relationship of nanocrystalline alloys” Acta Materialia<\/em>, 59(19), pp. 7340-7355, (2011)<\/p>\n\n\n <\/p>\n","protected":false},"excerpt":{"rendered":" [31] Morand LM, Pataky GJ. “Vector characterization approach for inherent strain modeling of laser powder bed fusion manufacturing” Rapid Prototyping Journal, (2025) https:\/\/doi.org\/10.1108\/RPJ-10-2024-0417 [30] Elbrecht B, Pataky GJ. “In-Situ Measurement of Creep Mechanisms at a High Temporospatial Resolution” Experimental Techniques, (2025). https:\/\/doi.org\/10.1007\/s40799-025-00811-7\u00a0 [29] Pizano LFL, Sridar S, De Vecchis RR, Wang X, Biddlecom J, Pataky … Continue reading Publications<\/span>