| The physics of fatigue crack initiation MD Sangid International journal of fatigue 57, 58-72, 2013 | 703 | 2013 |
| Energy of slip transmission and nucleation at grain boundaries MD Sangid, T Ezaz, H Sehitoglu, IM Robertson Acta materialia 59 (1), 283-296, 2011 | 406 | 2011 |
| Slip transfer and plastic strain accumulation across grain boundaries in Hastelloy X WZ Abuzaid, MD Sangid, JD Carroll, H Sehitoglu, J Lambros Journal of the Mechanics and Physics of Solids 60 (6), 1201-1220, 2012 | 293 | 2012 |
| Analyzing the effects of powder and post-processing on porosity and properties of electron beam melted Ti-6Al-4V R Cunningham, A Nicolas, J Madsen, E Fodran, E Anagnostou, ... Materials Research Letters 5 (7), 516-525, 2017 | 261 | 2017 |
| The role of grain boundaries on fatigue crack initiation–an energy approach MD Sangid, HJ Maier, H Sehitoglu International Journal of Plasticity 27 (5), 801-821, 2011 | 255 | 2011 |
| A physically based fatigue model for prediction of crack initiation from persistent slip bands in polycrystals MD Sangid, HJ Maier, H Sehitoglu Acta Materialia 59 (1), 328-341, 2011 | 193 | 2011 |
| Fatigue behavior of IN718 microtrusses produced via additive manufacturing L Huynh, J Rotella, MD Sangid Materials & Design 105, 278-289, 2016 | 159 | 2016 |
| Using machine learning and a data-driven approach to identify the small fatigue crack driving force in polycrystalline materials A Rovinelli, MD Sangid, H Proudhon, W Ludwig npj Computational Materials 4 (1), 35, 2018 | 150 | 2018 |
| The role of defects and critical pore size analysis in the fatigue response of additively manufactured IN718 via crystal plasticity V Prithivirajan, MD Sangid Materials & Design 150, 139-153, 2018 | 142 | 2018 |
| Insights on slip transmission at grain boundaries from atomistic simulations DE Spearot, MD Sangid Current Opinion in Solid State and Materials Science 18 (4), 188-195, 2014 | 141 | 2014 |
| Microstructure based fatigue life prediction framework for polycrystalline nickel-base superalloys with emphasis on the role played by twin boundaries in crack initiation SR Yeratapally, MG Glavicic, M Hardy, MD Sangid Acta Materialia 107, 152-167, 2016 | 129 | 2016 |
| Laser-driven micro transfer placement of prefabricated microstructures R Saeidpourazar, R Li, Y Li, MD Sangid, C Lu, Y Huang, JA Rogers, ... Journal of Microelectromechanical Systems 21 (5), 1049-1058, 2012 | 129 | 2012 |
| Role of heat treatment and build orientation in the microstructure sensitive deformation characteristics of IN718 produced via SLM additive manufacturing MD Sangid, TA Book, D Naragani, J Rotella, P Ravi, A Finch, P Kenesei, ... Additive Manufacturing 22, 479-496, 2018 | 123 | 2018 |
| Investigation of fatigue crack initiation from a non-metallic inclusion via high energy x-ray diffraction microscopy D Naragani, MD Sangid, PA Shade, JC Schuren, H Sharma, JS Park, ... Acta Materialia 137, 71-84, 2017 | 118 | 2017 |
| An energy-based microstructure model to account for fatigue scatter in polycrystals MD Sangid, HJ Maier, H Sehitoglu Journal of the Mechanics and Physics of Solids 59 (3), 595-609, 2011 | 118 | 2011 |
| Grain boundary characterization and energetics of superalloys MD Sangid, H Sehitoglu, HJ Maier, T Niendorf Materials Science and Engineering: A 527 (26), 7115-7125, 2010 | 111 | 2010 |
| Energetics of residual dislocations associated with slip–twin and slip–GBs interactions MD Sangid, T Ezaz, H Sehitoglu Materials Science and Engineering: A 542, 21-30, 2012 | 104 | 2012 |
| Strain localization in Ti-6Al-4V Widmanstätten microstructures produced by additive manufacturing TA Book, MD Sangid Materials Characterization 122, 104-112, 2016 | 103 | 2016 |
| Energy barriers associated with slip–twin interactions T Ezaz, MD Sangid, H Sehitoglu Philosophical Magazine 91 (10), 1464-1488, 2011 | 100 | 2011 |
| Incorporating grain-level residual stresses and validating a crystal plasticity model of a two-phase Ti-6Al-4 V alloy produced via additive manufacturing K Kapoor, YSJ Yoo, TA Book, JP Kacher, MD Sangid Journal of the Mechanics and Physics of Solids 121, 447-462, 2018 | 98 | 2018 |
