Y. Mahmood, M. Alghalayini, E. Martinez, C. Paredis, F. Abdeljawad, “Atomistic and machine learning studies of solute segregation in metastable grain boundaries.” Sci Rep 12, 6673 (2022).
M. Alkayyali, F. Abdeljawad, “Grain Boundary Solute Drag Model in Regular Solution Alloys,” Physical Review Letters, 127, 175503 (2021)
C. Barr, S. Foiles, M. Alkayyali, Y. Mahmood, P. Price, D. Adams, B. Boyce, F. Abdeljawad, K. Hattar, “The role of grain boundary character in solute segregation and thermal stability of nanocrystalline Pt-Au,” Nanoscale, 13, 3552 (2021) Featured on the Cover.
R. D. Moore, T. Beecroft, G. S. Rohrer, C. Barr, E. Homer, K. Hattar, B. L. Boyce, F. Abdeljawad, “The grain boundary stiffness and its impact on equilibrium shapes and boundary migration: Analysis of the Σ5, 7, 9, and 11 boundaries in Ni,” Acta Materialia, 218, 117220 (2021).
O. Hussein, S. J. Dillon, F. Abdeljawad, “Unraveling the Role of Grain Boundary Anisotropy in Sintering: Implications for Nanoscale Manufacturing,” ACS Applied Nano Materials, 4, 8039 (2021).
H. Lee, M. Shabani, G. Pataky, F. Abdeljawad, “Tensile Deformation Behavior of Twist Grain Boundaries in CoCrFeMnNi High Entropy Alloy Bicrystals,” Nature Scientific Reports, 11, 428 (2021)
T. Rodgers, D. Moser, F. Abdeljawad, O. Underwood, J. Carroll, B. Jared, D. Bolintineanu, J. Mitchell, J. Madison, “Simulation of powder bed metal additive manufacturing microstructures with coupled finite difference-Monte Carlo method,” Additive Manufacturing 41, 101953 (2021).
S. Kadambi, F. Abdeljawad, S. Patala, “Interphase boundary segregation and pre- cipitate coarsening resistance in ternary alloys: An analytic phase-field model de- scribing chemical effects,” Acta Materialia, 197, 283 (2020)
S. Kadambi, F. Abdeljawad, S. Patala, “A phase-field approach for modeling equilibrium solute segregation at the interphase boundary in binary alloys,” Comp. Mater. Sci., 175, 109533 (2020)
F. Abdeljawad, D. Bolintineanu, A. Cook, H. Brown-Shaklee, C. DiAntonio, D. Kammler, A. Roach, “Sintering processes in direct ink write additive manufacturing processes: A mesoscopic modeling approach”, Acta Mater. 169 (2019) 60-75
J. Sestito, F. Abdeljawad, T. A. Harris, Y. Wang, A. Roach, “An atomistic simulation study of nanoscale sintering: the role of grain boundary misorientation , Computational Materials Science 165 (2019) 180-189
P. Lu, F. Abdeljawad, M. Rodriguez, M. Chandross, D. Adams, B. L. Boyce, B. G. Clark, N. Argibay, “On the thermal stability and grain boundary segregation in nanocrystalline PtAu alloys”, Materialia 6 (2019) 100298
S. M. Foiles, F. Abdeljawad, A. Moore, B. L. Boyce, “Fatigue-driven acceleration of abnormal grain growth in nanocrystalline wires”, Modelling Simul. Mater. Sci. Eng. 27 (2019) 025008
F. Abdeljawad, S. M. Foiles, A. Moore, A. R. Hinkle, C. Barr, N. Heckman, K. Hattar, B. L. Boyce, “The role of the interface stiffness tensor on grain boundary dynamics”, Acta Mater. 158 (2018) 440-453
D. de Oca Zapiain, E. Popova, F. Abdeljawad, J. Foulk, S. Kalidindi, H. Lim, “Reduced-Order Microstructure-Sensitive Models for Damage Initiation in Two-Phase Composites”, Integ. Mater. Manuf. Innov. (IMMI) 7, 1 (2018)
M. Francois, A. Sun, W. King, N. Henson, D. Tourret, C. Bronkhorst, N. Carlson, C. Newman, T. Haut, J. Bakosi, J. Gibbs, V. Livescu, S. Vander Wiel, A. Clarke, M. Schraad, T. Blacker, H. Lim, T. Rodgers, S. Owen, F. Abdeljawad, J. Madison, A. Anderson, J.-L. Fattebert, R. Ferencz, N. Hodge, S. Khairallah, O. Walton, “Modeling of additive manufacturing processes for metals: Challenges and opportunities”, Curr. Opin. Solid State Mater. Sci. 21, 198 (2017)
F. Abdeljawad, P. Lu, N. Argibay, B. G. Clark, B. Boyce, S. M. Foiles, “Grain boundary segregation in immiscible nanocrystalline alloys”, Acta Mater. 126, 528 (2017)
D. L. Medlin, J. A. Zimmerman, F. Abdeljawad, K. Hattar, S. M. Foiles, “Defect character at grain boundary facet junctions: Analysis of an asymmetric Σ= 5 grain boundary in Fe”, Acta Mater. 124, 383 (2017)
J. Gruber, H. Lim, F. Abdeljawad, S. M. Foiles, G. J. Tucker “ Development of physically based atomistic microstructures: The effect on the mechanical response of polycrystals”, Comp. Mater. Sci. 128, 29 (2017) (Editor’s choice)
F. Abdeljawad, S. M. Foiles, “Interface-driven phenomena in solids: Thermodynamics, kinetics and chemistry”, J. Materials (JOM) 68, 1594 (2016)
F. Abdeljawad, D. L. Medlin, J. A. Zimmerman, K. Hattar, S. M. Foiles, “A Diffuse interface model of grain boundary faceting”, J. App. Phys. 119, 235306 (2016)
H. Lim, F. Abdeljawad, S. Owen, B. Hanks, C. C. Battaile, “Incorporating physically-based microstructures in materials modeling: Bridging phase field and crystal plasticity frameworks”, Mod. Sim. Mat. Sci. Eng. 24, 045016 (2016)
D. C. Bufford, F. Abdeljawad, K. Hattar, S. M. Foiles, “Unraveling irradiation induced grain growth with in situ TEM and coordinated modeling”, App. Phys. Lett. 107, (2015)
F. Abdeljawad, S. M. Foiles, “Stabilization of nanocrystalline alloys via grain boundary segregation: A diffuse interface model”, Acta Mater. 101, 159 (2015)
F. Abdeljawad, B. Voelker, R. Davis, R. M. McMeeking, M. Haataja, “Connecting microstructural coarsening processes to electrochemical performance in solid oxide fuel cells: An integrated modeling approach”, J. Power Sources 250, 319 (2014)
R. Davis, F. Abdeljawad, J. Lillibridge, M. Haataja, “Phase wettability and microstructural evolution in solid oxide fuel cell anode materials”, Acta Mater. 78, 271 (2014)
A. Zaheri, F. Abdeljawad, M. Haataja, “Simulation study of mechanical properties of bulk metallic glass systems: Martensitic inclusions and twinned precipitates”, Model. Simu. Mater. Sci. Eng. 22, 085008 (2014)
F. Abdeljawad, M. Haataja, “Microstructural coarsening effects on redox instability and mechanical damage in solid oxide fuel cell anodes”, J. App. Phys. 114, 183519 (2013)
F. Abdeljawad, G. Nelson, W. Chiu, M. Haataja, “Redox instability, mechanical deformation, and heterogeneous damage accumulation in solid oxide fuel cell anodes”, J. App. Phys. 112, 036102 (2012)
F. Abdeljawad, M. Fontus, M. Haataja, “Ductility of bulk metallic glass composites: Microstructures effects”, App. Phys. Lett. 98 (2011) 031909
F. Abdeljawad, M. Haataja, “Continuum modeling of bulk metallic glasses and composites”, Phys. Rev. Lett. 105 (2010) 125503
F. Abdeljawad, M. Zikry, “The effects of grain boundary orientations on failure behavior in F.C.C. polycrystalline systems”, Int. J. Damage Mechanics 18, 341 (2009)