Journal publications
| N. Chen, H. Wang, P. Veeresh, J. Li, J. Oswald, L. Xi, S. Wagner, R. Sekol, V. Li, K. Wang, T. Perry, J. Schroth, Achieving brittle-intermetallic-free and high-conductivity, aluminum/copper joints using nickel-phosphorus coatings, Materials & Design, 199, 109435, (2021). |  |
| LH Mayled, L Ross, CJ Ankeny, J Oswald, Best 2019 PIC 1 Paper: Effects of alternative course design and instructional methods in the engineering classroom, Paper presented at the 2020 ASEE Virtual Annual Conference, (2020). 10.18260/1-2--34204 | |
| R. Yuan, SS. Singh, X. Liao, J. Oswald, N. Chawla, Fracture analysis of particulate metal matrix composite using x-ray tomography and extended finite element analysis (XFEM), Journal of Composite Sciences, 4 (2), 62, (2020). |  |
| M. Liu, and J.Oswald,
Coarse-grained molecular modeling of the microphase structure of polyurea elastomer,
Polymer, 176, 1-10, (2019).
10.1016/j.polymer.2019.04.039
LAMMPS input files for coarse--grained model: 
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| Y. Li, V. Agrawal, and J. Oswald, Systematic coarse-graining of semicrystalline polyethylene, J. of Polym. Sci. B, 57 (6), 331-342, (2019). 10.1002/polb.24789 |  |
| Y. Xia, Y. Jin, J. Oswald, M. Chen, and K. Chen, Extended finite element modeling of production from a reservoir embedded with an arbitrary fracture network, Int. J. Numer. Meth. Fluids, 86 (5), 329-345 (2018). 10.1002/fld.4421 |  |
| V. Agrawal, P. Peralta, and J. Oswald, A pressure-transferable coarse-grained potential for modeling the shock Hugoniot of polyethylene, J. of Chemical Physics, 145,104903 (2016). 10.1063/1.4962255 | |
| R. Yuan, S. Singh, N. Chawla, J. Oswald, Geometry segmentation of voxelized representations of heterogeneous microstructures using betweenness centrality, Materials Characterization, 118 (2016) 553-559. 10.1016/j.matchar.2016.07.001 |  |
| V. Agrawal, K. Holzworth, W. Nantasetphong, A.V. Amirkhizi, J. Oswald, and S. Nemat-Nasser, Prediction of viscoelastic properties with coarse-grained molecular dynamics and experimental validation for a benchmark polyurea system, J. of Polymer Science B, Polymer Physics, 54 (8), pp 797-810, (2016). 10.1002/polb.23976 | |
| Z. Zhao, M.A. Bessa, J. Oswald, and T. Belytschko, A method for modeling the transition of weak discontinuities to strong discontinuities: from interfaces to cracks, International Journal of Numerical Methods in Engineering, 105 (11), pp 834-854, (2016). 10.1002/nme.4995 | |
| V. Agrawal, G. Arya, and J. Oswald, Simultaneous iterative Boltzmann inversion for coarse-graining of polyurea. Macromolecules, 47 (10), 3378-3389, (2014). 10.1021/ma500320n | |
| R. Yuan, S. Singh, N Chawla, and J. Oswald, Efficient methods for implicit geometrical representation of complex material microstructures. Int. J. Numerical Methods in Engineering, 98 (2), pp 79-91, (2014). 10.1002/nme.4619 | |
| Z. Liu, J. Oswald, and T. Belytschko, XFEM modeling of ultrasonic wave propagation in polymer matrix particulate/fibrous composites. Wave Motion, 50 (3), pp 389-401, (2013). 10.1016/j.wavemoti.2012.10.007 | |
| P. Moseley, J. Oswald, and T. Belytschko, Adaptive atomistic-continuum modeling of defect interaction with the DEBDM. Int J. for Multiscale Computational Engineering, 11 (6), 505-525, (2013). link to paper |  |
| J.H. Song, P Lea, and J. Oswald, Explicit Dynamic Finite Element Method for Predicting Implosion/Explosion Induced Failure of Shell Structures. Mathematical Problems in Engineering, 2013, 957286, (2013), 10.1155/2013/957286 | |
| M. Xu, J. Paci, J. Oswald, and T. Belytschko, A constitutive equation for graphene based on density functional theory. Int J. for Solids and Structures, 49 (18), (2012). 10.1016/j.ijsolstr.2012.05.019 | |
| P. Moseley, J. Oswald, and T. Belytschko, Adaptive atomistic-to-continuum modeling of propagating defects. International Journal of Numerical Methods in Engineering, 92 (10), pp. 835-856, (2012). 10.1002/nme.4358 | |
| M. Xu, A. Tabarraei, J. Paci, J. Oswald, and T. Belytschko, A coupled quantum/continuum mechanics study of graphene fracture. Int J. Fracture, 173 (2), pp. 163-173, (2012). 10.1007/s10704-011-9675-x | |
| R. Jones, J. Zimmerman, J. Oswald, and Ted Belytschko, An atomistic J-integral at finite temperature based on Hardy estimates of continuum fields. J. Phs Condens. Matter 23 015002, (2011). 10.1088/0953-8984/23/1/015002 | |
| J. Oswald, E. Wintersburger, G. Baüer, and T. Belytschko, A higher-order extended finite element method for dislocation energetics in strained layers and epitaxial islands, Int J. of Numerical Methods in Engineering, 85 (7), 920-938 (2011). 10.1002/nme.3011 |  |
| E. Wintersberger, N. Hrauda, D. Kreigner, M. Keplinger, G. Springholz, J. Stangl., G. Baüer, J. Oswald, T. Belytschko, C. Deiter, F. Bertram, and O.H. Seeck, Analysis of periodic dislocation networks using x-ray diffraction and extended finite element modeling, Applied Physics Letters, 96, 131905 (2010). 10.1063/1.3379298 | |
| J. Oswald, R. Khare, R. Gracie, and T. Belytschko, An extended finite element method for dislocations in complex geometries: thin films and nanotubes. Computer Methods in Applied Mechanics and Engineering, 198, pp 1872-1886 (2009). 10.1016/j.cma.2008.12.025 | |
| R. Gracie, J. Oswald, and T. Belytschko, On a new extended finite element method for dislocations: core enrichments. Journal of Mechanics and Physics of Solids, 56 (1), pp. 200-214, (2008). 10.1016/j.jmps.2007.07.010 |
Book chapters
- J. Oswald, G. Arya, Z. Cui, and L.C. Brinson, "Molecular and Coarse-Grained Methods for Microstructure-Property Relations in HSREP", in Elastomeric Polymers with High Rate Sensitivity: Applications in Blast, Shockwave, and Penetration Mechanics, Elsevier Science, Editor, Roshdy G. Barsoum, (2015).