John T. Foster

Education

• Ph.D., Purdue University, 2009.
• M.S. Mechanical Engineering, Texas Tech University, 2004.
• B.S. Mechanical Engineering, Cum Laude, Texas Tech University, 2002.

Professional Registration

• Professional Engineer, Texas, #118233

Current Appointments

• George H. Fancher Fellowship in Petroleum Engineering,
  The University of Texas at Austin,
  September 2016–Present.
• Associate Professor, Hildebrand Department of Petroleum and Geosystems Engineering,
  The University of Texas at Austin,
  September 2017–Present.
• Associate Professor, Department of Aerospace Engineering and Engineering Mechanics,
  The University of Texas at Austin,
  September 2017–Present.
• Core Faculty, Oden Institute for Computational Engineering and Sciences,
  The University of Texas at Austin,
  November 2017–Present.

Awards & Honors

• 2023 SPE SPE Regional Data Science and Engineering Analytics Award
• 2018 ICES W.A. “Tex” Moncrief Grand Challenge Award
• 2015 SPE Petroleum Engineering Innovative Teaching Award
• 2013 Air Force Office of Scientific Research Young Investigator Award
• 2013 ‘40 Under 40’ - San Antonio Business Journal

Refereed Journal Articles

Published

1. D.J. Littlewood, M.L. Parks, J.T. Foster, J.A. Mitchell, and P. Diehl. The Peridigm Meshfree Peridynamcis Code. Journal of Peridynamics and Nonlocal Modeling, 2023. doi:10.1007/s42102-023-00100-0.
2. E. Maldonado-Cruz, J.T. Foster, and M.J. Pyrcz. Sonic Well-Log Imputation Through Machine-Learning-Based Uncertainty Models. Petrophysics, 64(02):253–270, 04 2023. doi:10.30632/PJV64N2-2023a7.
3. M. Yang and J.T. Foster. Using physics-informed neural networks to solve for permeability field under two-phase flow in heterogeneous porous media. Journal of Machine Learning for Modeling and Computing, 2023. doi:10.1615/ JMachLearnModelComput.2023046921.
4. M.B. Abdullah, M. Delshad, K. Sepehrnoori, M.T. Balhoff, J.T. Foster, and M.T. Al-Murayri. Physics-Based and Data-Driven Polymer Rheology Model. SPE Journal, pages 1–23, 02 2023. doi:10.2118/214307-PA.
5. X. Xu and J.T. Foster. The peridynamic Jacobian. Journal of Peridynamics and Nonlocal Modeling, 2022. doi:10.1007/s42102-022-00091-4.
6. X. Xu, M. D’Elia, C. Glusa, and J.T. Foster. Machine-learning of nonlocal kernels for anomalous subsurface transport from breakthrough curves. Numerical Algebra, Control and Optimization, 0, 2022. doi:10.3934/naco.2022025.
7. Y. Bazilevs, M. Behzadinasab, and J.T. Foster. Simulating concrete failure using the Microplane (M7) constitutive model in correspondence-based peridynamics: Validation for classical fracture tests and extension to discrete fracture. Journal of the Mechanics and Physics of Solids, page 104947, 2022. doi:10.1016/j.jmps.2022.104947.
8. M. Yang and J.T. Foster. Multi-output physics-informed neural networks for forward and inverse pde problems with uncertainties. Computer Methods in Applied Mechanics and Engineering, page 115041, 2022. doi:10.1016/j.cma.2022.115041.
9. Y. Leng, X. Tian, L. Demkowicz, H. Gomez, and J.T. Foster. A Petrov-Galerkin method for nonlocal convection-dominated diffusion problems. Journal of Computational Physics, 452:110919, 2022. doi:10.1016/j.jcp.2021.110919.
10. M. Behzadinasab, G. Moutsanidis, N. Trask, J.T. Foster, and Y. Bazilevs. Coupling of iga and peridynamics for air-blast fluid-structure interaction using an immersed approach. Forces in Mechanics, 4:100045, 2021. doi:10.1016/j.finmec.2021. 100045.
11. X. Xu, C. Glusa, M. D’Elia, and J.T. Foster. A FETI approach to domain decomposition for meshfree discretizations of nonlocal problems. Computer Methods in Applied Mechanics and Engineering, 387:114148, 2021. doi:10.1016/j.cma.2021. 114148.
12. X. Xu, M. D’Elia, and J.T. Foster. A machine-learning framework for peridynamic material models with physical constraints. Computer Methods in Applied Mechanics and Engineering, 386, December 2021. doi:10.1016/j.cma.2021.114062.
13. M. Yang and J.T. Foster. hp-variational physics-informed neural networks for nonlinear two-phase transport in porous media. Journal of Machine Learning for Modeling and Computing, 2:15–32, 2021. doi:10.1615/JMachLearnModelComput. 2021038005.
14. S. Agrawal, J.R. York, J.T. Foster, and M.M. Sharma. Coupling Peridynamics with the Classical Methods for Modeling Hydraulic Fracture Growth in Heterogeneous Reservoirs. SPE Journal, pages 1–19, 04 2021. doi:10.2118/205393-PA.
15. Y. Leng, X. Tian, N.A. Trask, and J.T. Foster. Asymptotically Compatible Reproducing Kernel Collocation and Meshfree Integration for Nonlocal Diffusion. SIAM Journal on Numerical Analysis, 59(1):88–118, 2021. doi:10.1137/19M1277801.
16. M. Behzadinasab, J.T. Foster, and Y. Bazilevs. A Unified, Stable, and Accurate Meshfree Framework for Peridynamic Correspondence Modeling—Part II: Wave Propagation and Enforcement of Stress Boundary Conditions. Journal of Peridynamics and Nonlocal Modeling, 2020. doi:10.1007/s42102-020-00039-6.
17. Y. Leng, X. Tian, N.A. Trask, and J.T. Foster. Asymptotically compatible reproducing kernel collocation and meshfree integration for the peridynamic navier equation. Computer Methods in Applied Mechanics and Engineering, 370:113264, 2020. doi:10.1016/j.cma.2020.113264.
18. X. Xu and J.T. Foster. Deriving peridynamic influence functions for one-dimensional elastic materials with periodic microstructure. Journal of Peridynamics and Nonlocal Modeling, 2020. doi:10.1007/s42102-020-00037-8.
19. M. Behzadinasab and J.T. Foster. Revisiting the third sandia fracture challenge: a bond-associated, semi-lagrangian peridynamic approach to modeling large deformation and ductile fracture. International Journal of Fracture, 2020. doi:10.1007/s10704- 020-00455-1.
20. S. Agrawal, S. Zheng, J.T. Foster, and M.M. Sharma. Coupling of meshfree peridynamics with the finite volume method for poroelastic problems. Journal of Petroleum Science and Engineering, page 107252, 2020. doi:10.1016/j.petrol. 2020.107252.
21. M. Behzadinasab and J.T. Foster. A semi-lagrangian constitutive correspondence framework for peridynamics. Journal of the Mechanics and Physics of Solids, 137:103862, April 2020. doi:10.1016/j.jmps.2019.103862.
22. A. Katiyar, S. Agrawal, H. Ouchi, P. Seleson, J.T. Foster, and M.M. Sharma. A general peridynamics model for multiphase transport of non-Newtonian compressible fluids in porous media. Journal of Computational Physics, 2019. doi:10.1016/j.jcp. 2019.109075.
23. M. Behzadinasab and J.T. Foster. On the stability of the generalized, finite deformation correspondence model of peridynamics. International Journal of Solids and Structures, 2019. doi:10.1016/j.ijsolstr.2019.07.030.
24. S.L.B. Kramer, A. Jones, A. Mostafa, B. Ravaji, T. Tancogne-Dejean, C.C. Roth, M. Gorji Bandpay, K. Pack, J.T. Foster, M. Behzadinasab, and others. The third Sandia Fracture Challenge: predictions of ductile fracture in additively manufactured metal. International Journal of Fracture, June 2019. doi:10.1007/s10704-019- 00361-1.
25. M. Behzadinasab and J.T. Foster. The third Sandia Fracture Challenge: peridynamic blind prediction of ductile fracture characterization in additively manufactured metal. International Journal of Fracture, June 2019. doi:10.1007/s10704-019-00363-z.
26. Y. Leng, X. Tian, and J.T. Foster. Super-convergence of reproducing kernel approximation. Computer Methods in Applied Mechanics and Engineering, 352:488–507, August 2019. doi:10.1016/j.cma.2019.04.038.
27. D. Kamensky, M. Behzadinasab, J.T. Foster, and Y. Bazilevs. Peridynamic modeling of frictional contact. Journal of Peridynamics and Nonlocal Modeling, Apr 2019. doi:10.1007/s42102-019-00012-y.
28. M. Behzadinasab, T.J. Vogler, A.M. Peterson, R. Rahman, and J.T. Foster. Peridynamics modeling of a shock wave perturbation decay experiment in granular materials with intra-granular fracture. Journal of Dynamic Behavior of Materials, 4(4):529–542, December 2018. doi:10.1007/s40870-018-0174-2.
29. M. Pasetto, Y. Leng, J.S. Chen, J.T. Foster, and P. Seleson. A reproducing kernel enhanced approach for peridynamic solutions. Computer Methods in Applied Mechanics and Engineering, 340:1044–1078, October 2018. doi:10.1016/j.cma.2018.05.010.
30. J.T. Foster and X. Xu. A generalized, ordinary, finite deformation constitutive correspondence model for peridynamics. International Journal of Solids and Structures, 141–142:245–253, June 2018. doi:10.1016/j.ijsolstr.2018.02.026.
31. H. Ouchi, A. Katiyar, J.T. Foster, and M. M. Sharma. A peridynamics model for the propagation of hydraulic fractures in naturally fractured reservoirs. SPE Journal, Preprint(SPE-173361-PA), May 2017. doi:10.2118/173361-PA.
32. H. Ouchi, J.T. Foster, and M.M. Sharma. Effect of reservoir heterogeneity on the vertical migration of hydraulic fractures. Journal of Petroleum Science and Engineering, 151:384–408, 2017. doi:10.1016/j.petrol.2016.12.034.
33. J.T. O’Grady and J.T. Foster. A meshfree method for bending and failure in non-ordinary peridynamic shells. Computational Mechanics, 57(6):921–929, June 2016. doi:10.1007/s00466-016-1269-z.
34. J.T. Foster. A variationally consistent approach to constrained motion. ASME. J. Appl. Mech., 83(5), May 2016. doi:10.1115/1.4032856.
35. R. Rahman and J.T. Foster. Onto resolving spurious wave reflection problem with changing nonlocality among various length scales. Communications in Nonlinear Science and Numerical Simulation, 34:86–122, 2016. doi:10.1016/j.cnsns.2015.10. 003.
36. R. Rahman and J.T. Foster. Peridynamic theory of solids from the perspective of classical statistical mechanics. Physica-A, 437:162–183, November 2015. doi: 10.1016/j.physa.2015.05.099.
37. R. Rahman and J.T. Foster. A molecular dynamics based investigation of thermally vibrating graphene under different boundary conditions. Physica E: Low-dimensional Systems and Nanostructures, 72:25–47, August 2015. doi:10.1016/j.physe.2015. 04.007.
38. H. Ouchi, A. Katiyar, J.R. York, J.T. Foster, and M.M. Sharma. A fully coupled porous flow and geomechanics model for fluid driven cracks: a peridynamics approach. Computational Mechanics, 55(3):561–576, March 2015. doi:10.1007/s00466-015- 1123-8.
39. J.T. O’Grady and J.T. Foster. Peridynamic plates and flat shells: A non-ordinary state-based model. International Journal of Solids and Structures, 51(25–26):4572–4579, 2014. doi:10.1016/j.ijsolstr.2014.09.003.
40. J.T. O’Grady and J.T. Foster. Peridynamic beams: A non-ordinary state-based model. International Journal of Solids and Structures, 51(18):3177–3183, 2014. doi: 10.1016/j.ijsolstr.2014.05.014.
41. M. Bessa, J.T. Foster, T. Belytschko, and W.K. Liu. A meshfree unification: Reproducing kernel peridynamics. Computational Mechanics, 53(6):1251–1264, 2014. doi:10.1007/s00466-013-0969-x.
42. M.D. Brothers, J.T. Foster, and H.R. Millwater. A comparison of different methods for calculating tangent-stiffness matrices in a massively parallel computational peridynamics code. Computer Methods in Applied Mechanics and Engineering, 279:247—267, September 2014. doi:10.1016/j.cma.2014.06.034.
43. R. Rahman and J.T. Foster. Bridging the length scales through nonlocal hierarchical multiscale modeling scheme. Computational Material Science, 92:401–415, September 2014. doi:10.1016/j.commatsci.2014.05.052.
44. R. Rahman, J.T. Foster, and A. Haque. A multiscale modeling scheme based on peridynamic theory. International Journal of Multiscale Computational Engineering, 12(3):223–248, 2014. doi:10.1615/IntJMultCompEng.2014007954.
45. R. Rahman and J.T. Foster. Deformation mechanism of graphene in amorphous polyethylene: A molecular dynamics based study. Computational Material Science, 87:232–240, May 2014. doi:10.1016/j.commatsci.2014.02.023.
46. A. Katiyar, J.T. Foster, H. Ouchi, and M.M. Sharma. A peridynamic formulation of pressure driven convective fluid transport in porous media. Journal of Computational Physics, 261:209–229, March 2014. doi:10.1016/j.jcp.2013.12.039.
47. E.E. Nishida, J.T. Foster, and P.E. Briseno. Constant-strain-rate testing of a G10 laminate composite through optimized Kolsky bar pulse shaping techniques. Journal of Composite Materials, 47(23):2895–2903, 2013. doi:10.1177/0021998312460263.
48. R. Rahman, J.T. Foster, and A. Haque. Molecular dynamics simulation and characterization of graphene-cellulose nanocomposites. The Journal of Physical Chemistry A, 117(25):5344–5353, 2013. doi:10.1021/jp402814t.
49. J.T. Foster. Comments on the validity of test conditions in Kolsky bar experiments of elastic-brittle materials. Experimental Mechanics, 52(9):1559–1563, Brief Technical Note 2012. doi:10.1007/s11340-012-9592-6.
50. J.T. Foster, D.J. Frew, M.J. Forrestal, E.E. Nishida, and W. Chen. Shock testing accelerometers with a Hopkinson pressure bar. International Journal of Impact Engineering, 46:56–61, August 2012. doi:10.1016/j.ijimpeng.2012.02.006.
51. J.T. Foster, S.A. Silling, and W. Chen. An energy based failure criterion for use with peridynamic states. International Journal of Multiscale Computational Engineering, 9(6):675–688, 2011. doi:10.1615/IntJMultCompEng.2011002407.
52. J.T. Foster, W. Chen, and V.K. Luk. Dynamic crack initiation toughness of 4340 steel at constant loading rates. Engineering Fracture Mechanics, 78(6):1264 – 1276, 2011. doi:10.1016/j.engfracmech.2011.02.019.
53. J.T. Foster, S.A. Silling, and W.W. Chen. Viscoplasticity using peridynamics. International Journal for Numerical Methods in Engineering, 81(10):1242–1258, 2010. doi:10.1002/nme.2725.
54. J.T. Foster, A.A. Barhorst, C.N. Wong, and M.T. Bement. Modeling Loose Joints in Elastic Structures–Experimental Results and Validation. Journal of Vibration and Control, 15(4):549–565, 2009. doi:10.1177/1077546307082908.

Books Authored

1. J.T. Foster. Introduction to High-Performance Computing. e-book, 2022. URL: https://johnfoster.pge.utexas.edu/hpc-book
2. J.T. Foster. Numerical Methods and Computer Programming. e-book, 2019. URL: https://johnfoster.pge.utexas.edu/numerical-methods-book

Books Edited

1. F. Bobaru, J.T. Foster, P.H. Geubelle, and S.A. Silling, editors. Handbook of Peridynamic Modeling. Number ISBN 9781482230437 in Advances in Applied Mathematics. Chapman and Hall/CRC Press, 2016

Book Chapters

1. J.T. Foster. Handbook of Peridynamic Modeling, chapter Constitutive Modeling in Peridynamics. Number ISBN 9781482230437 in Advances in Applied Mathematics. Chapman and Hall/CRC Press, 2016

Conference Proceedings

1. S. Agrawal, J. York, J.T. Foster, and M. Sharma. Coupling meshfree peridynamics with the classical methods for modeling hydraulic fracture growth in heterogeneous reservoirs. In Unconventional Resources Technology Conference, 20–22 July 2020, pages 180–203. Unconventional Resources Technology Conference (URTEC), 2020.
2. M. Behzadinasab, T.J. Vogler, and J.T. Foster. Modeling perturbed shock wave decay in granular materials with intra-granular fracture. In 20th Biennial APS Conference on Shock Compression of Condensed Matter, 2017.
3. H. Ouchi, S. Agrawal, J.T. Foster, and M.M. Sharma. Effect of small scale heterogeneity on the growth of hydraulic fractures. In SPE Hydraulic Fracturing Technology Conference and Exhibition. Society of Petroleum Engineers, 2017. doi: 10.2118/184873-MS.
4. E.A. Lynd, J.T. Foster, and Q.P. Nguyen. An application of the Isogeometric Analysis Method to reservoir simulation. In 78th EAGE Conference and Exhibition, number SPE-180110-MS. Society of Petroleum Engineers, 2016. doi:10.2118/180110-MS.
5. H. Ouchi, A. Katiyar, J.T. Foster, and M.M. Sharma. A Peridynamics Model for the Propagation of Hydraulic Fractures in Heterogeneous, Naturally Fractured Reservoirs. In SPE Hydraulic Fracturing Technology Conference, number SPE-173361-MS. Society of Petroleum Engineers, February 2015. doi:10.2118/173361-MS.
6. J.T. O’Grady and J.T. Foster. Peridynamic beams and plates: A non-ordinary state-based model. In ASME 2014 International Mechanical Engineering Congress and Exposition, number IMECE2014-39887, 2014. doi:10.1115/IMECE2014-39887.
7. J.R. York, J.T. Foster, E.E. Nishida, and B. Song. A novel torsional Kolksy bar for constant-strain-rate materials testing. In B. Song, D. Casem, and J. Kimberly, editors, Dynamic Behavior of Materials, Volume 1, Conference Proceedings of the Society for Experimental Mechanics Series. Springer New York, 2013. doi:10.1007/ 978-3-319-00771-7_36.
8. J.T. Foster and E.E. Nishida. A priori pulse shaper design for constant-strain-rate tests of elastic-brittle materials. In V. Chalivendra, B. Song, and D. Casem, editors, Dynamic Behavior of Materials, Volume 1, Conference Proceedings of the Society for Experimental Mechanics Series, pages 379–386. Springer New York, 2013. doi: 10.1007/978-1-4614-4238-7_49.
9. J.T. Foster, D.J. Frew, M.J. Forrestal, E.E. Nishida, and W. Chen. Shock testing accelerometers with a Hopkinson pressure bar. Experimental and Applied Mechanics, Volume 6, pages 229–237, 2011. doi:10.1007/978-1-4614-0222-0_29.
10. J.T. Foster, W. Chen, and V.K. Luk. Dynamic fracture initiation toughness of high strength steel alloys. In DYMAT 2009-9th International Conference on the Mechanical and Physical Behaviour of Materials under Dynamic Loading, volume 1, pages 407–412, 2009. doi:10.1051/dymat/2009058.
11. J.T. Foster, S.A. Silling, and W.W. Chen. State based peridynamic modeling of dynamic fracture. In DYMAT 2009-9th International Conference on the Mechanical and Physical Behaviour of Materials under Dynamic Loading, volume 2, pages 1529–1535, 2009. doi:10.1051/dymat/2009216.
12. J.T. Foster, S.A. Silling, and W.W. Chen. State based peridynamic modeling of dynamic fracture. In SEM 2009 Conference on Experimental and Applied Mechanics, number 33. SEM, 2009.
13. J.T. Foster, V.K. Luk, and W. Chen. Dynamic initiation fracture toughness of high strength steel alloys. In Proceedings of the XIth International Congress and Exposition. Orlando, Florida Society for Experimental Mechanics Inc, volume 77, 2008.
14. D.A. Dederman, D. Burnett, J.T. Foster, and J.A. Dykes. In Situ Penetration Testing of Darts with 16-Inch Mobile Gas Gun. In Proceedings of 24th International Symposium on Ballistics, number TB149, 2008.
15. J.G. Averett, J.D. Cargile, J.T. Foster, and V.K. Luk. Oblique Perforation of Unreinforced Concrete Targets: Experiments and Numerical Simulations. In Limited Proceedings of 77th Shock and Vibration Conference, 2007.
16. J.G. Averett, J.D. Cargile, J.T. Foster, and V.K. Luk. Projectile Deceleration Due to Perforation Through Layers of Unreinforced Concrete Targets. In Limited Proceedings of 76th Shock and Vibration Conference, number U-045. SAVIAC, 2006.
17. J.T. Foster, A.A. Barhorst, C.N. Wong, and M.T. Bement. Modeling and Experimental Verification of Frictional Contact-Impact in Loose Bolted Joint Elastic Structures. In Proceedings of IDETC’05, number DETC2005-85465. IDETC, 2005.

Technical Reports

1. Peridynamics Capabilities Review Panel. Peridynamics capabilities review panel report. SAND Report 2015-1921, Sandia National Laboratories, Albuquerque, NM and Livermore, CA, 2015.
2. J.V. Cox, G.W. Wellman, J.M. Emery, J.T. Ostien, J.T. Foster, T.E. Cordova, T.B. Crenshaw, A. Mota, J.E. Bishop, S.A. Silling, D.J. Littlewood, J.W. Foulk III, K.J. Dowding, K. Dion, B.L. Boyce, J.H. Robbins, and B.W. Spencer. Ductile Failure X-prize. Technical Report SAND2011-6801, Sandia National Laboratories, 2012. doi:10.2172/1029764.
3. E.E. Nishida, J.T. Foster, E.W. Klamerus, and D. Burnett. Dynamic behavior of shock isolation/ mitigation materials by kolsky bar experiments. Technical Report SAND2011-8266, Sandia National Laboratories, 2011.
4. J.T. Foster, A.E. Fortier, J.G. Averett, J.D. Cargile, V.K. Luk, and D.A. Dederman. Predictive Simulation for Perforation Through Layers of Unreinforced Concrete Targets. Technical Report SAND2008-113, Sandia National Laboratories, 2008.
5. J.T. Foster, A.J. Webb, A.E. Fortier, V.K. Luk, and D.A. Dederman. Penetration Code Study for Angle-of-Obliquity (AoO) Experiments into High-Strength Concrete Targets. Technical Report SAND2008-1162, Sandia National Laboratories, 2008.
6. P.D. Coleman, R.A. Bates, M.T. Buttram, S.B. Dron, J.T. Foster, R.J. Franco, C.O. Landron, G.M. Loubriel, J.E. Lucero, A. Mar, T.L. Martinez, F.E. Reyes, and B.J. Welch. Void Sensor for Penetrators. Technical Report SAND2007-6528, Sandia National Laboratories, 2007.
7. R.J. Fogler, J.W. Giron, J.A. Jacob, W.P. Wolfe, R.W. Greene, R.D. Tucker, A.E. Fortier, J.T. Foster, D.M. Van Zuiden, W.T. O’Rourke, H.D. Nguyen, E. Ollila, and J.R. Phelan. Guided miniature air-deliverable sensor dart. Technical Report SAND2007-6528, Sandia National Laboratories, 2007.
8. J.T. Foster and A.J. Webb. Penetration Simulations for Angle-of-Attack (AoA) Experiments into Low Strength Concrete Targets. SAND2007-5256, Sandia National Laboratories, 2007.
9. J.A. Dykes and J.T. Foster. Discrete-ULL 1-C Final Test Report. Technical Report SAND2007-4273, Sandia National Laboratories, 2007.
10. J.T. Foster. Scale Modeling of Earth Penetrators for In Situ Targets. Technical Report SAND2006-4273, Sandia National Laboratories, 2006.

Technical Presentations

Invited Talks

1. “Peridynamic modeling of ductile and quasi-brittle fracture.” Conference Plenary. Africomp 5. Cape Town, SA. November 2022.
2. “What it takes to be an Energy Data Scientist — A Panel Discussion.” (with M. Pyrcz). Center for Subsurface Energy & the Environment, The University of Texas at Austin. August 2022.
3. “Applications of SciML in Petroleum Engineering.” Energy In Data Conference. Austin, TX February 2022.
4. “Applications of SciML in Petroleum Engineering.” XOM Optimization and Data Science Community Meeting. Virtual. February 2022.
5. “Peridynamic modeling of large deformation and ductile fracture” USACM Thematic Workshop on Experimental and Computational Fracture Mechanics. Baton Rouge, LA. February 2020.
6. “Peridynamic modeling of large deformation and ductile fracture: a bond-associated, semi-Lagrangian, constitutive correspondence framework.” Tenth International Workshop Meshfree Methods for Partial Differential Equations. Bonn, Germany. September 2019.
7. “Coupling FEM and meshfree peridynamics for the simulation of hydraulic fracturing.” 15th National Congress on Computational Mechanics. Austin, TX. August 2019.
8. “Coupling FEM and meshfree peridynamics for the simulation of hydraulic fracturing.” Workshop on Meshfree Methods and Advances in Computational Mechanics, In celebration of Professor J.S. Chen’s 60th brithday. Dublin, CA. March 2019
9. “Coupling FEM and meshfree peridynamics for the simulation of hydraulic fracturing.” USACM Thematic Workshop on Nonlocal Methods in Fracture. Austin, TX, January 2018
10. “Coupling FEM and meshfree peridynamics for the simulation of hydraulic fracturing.” Ninth International Workshop Meshfree Methods for Partial Differential Equations. Bonn, Germany. September 2017.
11. “Concepts and applications of peridynamics.” Babuška Forum Seminar. Institute for Computational Engineering and Science. The University of Texas at Austin. September 2017.
12. “Finite deformation constitutive models and mechanics of peridynamic mixtures.” Workshop on Non-local Material Models and Concurrent Multiscale Methods. Hausdorff Research Institute for Mathematics. Bonn, Germany. April 2017.
13. “Nonlocal models for anamalous transport” Schlumberger EUREKA Fluid Mecahnics Mini-Workshop. Schlumberger-Doll Research Center. July 2016.
14. “Isogeometric peridynamics.” USACM Thematic Workshop on Nonlocal Models in Mathematics, Computation, Science, and Engineering. Oak Ridge National Laboratory. October 2015.
15. “A multiphysics model for hydraulic fracture simulation.” Eighth International Workshop Meshfree Methods for Partial Differential Equations. Universität Bonn. September 2015.
16. “Nonlocal multiphysics for heterogeneous materials, anomalous diffusion, and fracture.” Total. March 2015.
17. “Nonlocal multiphysics for heterogeneous materials, anomalous diffusion, and fracture.” Graduate Aerospace Laboratories, California Institute of Technology. January 2015.
18. “Nonlocal multiphysics for heterogeneous materials, anomalous diffusion, and fracture.” Institute for Computational Engineering Science, The University of Texas at Austin. October 2014.
19. “Nonlocal multiphysics for heterogeneous materials, anomalous diffusion, and fracture.” University of Illinos – Urbana-Champaign, Department of Aerospace Engineering. September 2014.
20. “Nonlocal multiphysics for heterogeneous materials, anomalous diffusion, and fracture.” Center for Mechanics of Solids, Structures and Materials, The University of Texas at Austin, Department of Aerospace Engineering and Engineering Mechanics. September 2014.
21. “Nonlocal multiphysics for heterogeneous materials, anomalous diffusion, and fracture.” ExxonMobil - Corporate Strategic Research. July 2014.
22. “A model for nonlocal diffusion and fluid-driven fracture.” USACM/IUTAM Symposium on Connecting Multiscale Mechanics to Complex Material Design. Northwestern University. May 2014.
23. “Nonlocal multiphysics for heterogeneous materials, anomalous diffusion, and fracture.” The University of Texas at Austin, Department of Petroleum & Geosystems Engineering. March 2014.
24. “Nonlocal multiphysics for heterogeneous materials, anomalous diffusion, and fracture.” Northwestern University, Department of Mechanical Engineering. January 2014.
25. “Peridynamics as a unified theory for heterogenous media, anomalous porous flow, and fracture.” The University of Texas at Austin, Department of Petroleum & Geosystems Engineering. October 2013.
26. “Unifying the mechanics of continuous and discontinuous media.” Army Research Laboratory. February 2013.
27. “Unifying the mechanics of continuous and discontinuous media.” The Johns Hopkins University, Center for Advanced Ceramics and Metallic Systems. July 2012.
28. “Unifying the mechanics of continuous and discontinuous media.” Texas Tech University, Mechanical Engineering. April 2012.
29. “Hydraulic fracturing and its environmental impact: a short address of major public concerns.” Presentation for the Center for Simulation, Visualization, and Real-Time Prediction participation in UTSA Earthweek 2012. April 2012.
30. “Unifying the mechanics of continuous and discontinuous media.” 2011 International Workshop on Intensive Loading and its Effects. State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology. Beijing, China. December 2011.
31. “Peridynamic modeling of viscoplasticity and dynamic fracture.” University of Nebraska, Engineering Mechanics. April 2010.
32. “Peridynamic modeling of viscoplasticity and dynamic fracture.” University of New Mexico, Mechanical Engineering. February 2010.

Conferences

1. “A machine-learning framework for peridynamic material models with physical constraints.” (with X. Xu and M. D’Elia) U.S. National Congress on Theoretical and Applied Mechanics. Austin, TX. June 2022.
2. “Coupling FEM and meshfree peridynamics for the simulation of hydraulic fracturing.” (with J.R. York) World Congress on Computational Mechanics XIII. July 2018.
3. “Coupling FEM and meshfree peridynamics for the simulation of hydraulic fracturing.” (with J.R. York) ECCOMAS 6th European Conference on Computational Mechanics. Glasgow, UK. June 2018.
4. “A Hypoelastic Constitutive Correspondence Model for Peridynamics.” (with M. Behzadnasab, X. Xu) US National Congress on Theoretical and Applied Mechanics. June 2018.
5. “A Finite Deformation Generalized Correspondence Theory for Peridynamic Material Modeling” (with X. Xu). ASME 2017 International Mechanical Engineering Congress and Exposition. November 2017.
6. “Coupling FEM and meshfree peridynamics for the simulation of hydraulic fracturing.” (with J.R. York) Ninth International Workshop Meshfree Methods for Partial Differential Equations. September 2017.
7. “Finite Deformation Constitutive Models and Mechanics of Peridynamic Mixtures.” (with X. Xu). 14th US National Congress on Computational Mechanics. July 2017.
8. “Modeling hydraulic fracturing with a pressure dependent cap model and peridynamics.” (with J.R. York). EMI 2017. June 2017.
9. “A model for the transport of miscible fluids in the presence of anomalous diffusion.” 2017 SIAM Conference on Computational Science and Engineering. February 2017.
10. “A finite deformation generalized correspondence theory for peridynamic material modeling” (with X. Xu). ASME 2016 International Mechanical Engineering Congress and Exposition. November 2016.
11. “A model for the transport of miscible fluids in the presence of anomalous diffusion.” (with R. Tabasi). USACM Thematic Workshop on Isogeometric Analysis and Meshfree Methods. October 2016.
12. “A variationally consistent approach to constrained motion.” 24th International Congress on Theoretical and Applied Mechanics. August 2016.
13. “A model for the transport of miscible fluids in the presence of anomalous diffusion.” (Keynote, with R. Tabasi). World Congress on Computational Mechanics XII. July 2016.
14. “A peridynamic model for hydraulic fracture.” (with H. Ouchi, J.R. York, M.D. Brothers, M.M. Sharma). SIAM Annual Conference. July 2016.
15. “A peridynamic model for hydraulic fracture.” (with H. Ouchi, J.R. York, M.M. Sharma). Engineering Mechanics Institute Conference 2016. May 2016.
16. “Bending Failure in Peridynamic Plates.” (with J. O’Grady). ASME 2015 International Mechanical Engineering Congress and Exposition. November 2015.
17. “Mesoscale Simulations Investigating the Effects of Shock Wave Stability in Granular Materials with Peridynamics.” (with R. Rahman, A. Peterson, T. Vogler). 13th US National Congress on Computational Mechanics. July 2015.
18. “Regularizing numerical simulations of shear-banding using a peridynamics-based plasticity formulation.” (with Md.I.H. Kahn). ASME 2014 International Mechanical Engineering Congress and Exposition. November 2014.
19. “An Ordinary State Based Plasticity Model For Peridynamics.” (with J.A. Mitchell). ASME 2014 International Mechanical Engineering Congress and Exposition. November 2014.
20. “Fracture in plates and shells with peridynamic non-ordinary state-based models.” Meshfree Methods for Large-Scale Computational Science and Engineering. October 2014.
21. “An Overview of the Progress of Meshfree Particle Methods: From SPH to EFG to RKPM to Meshfree Peridynamics.” (with W.K. Liu, M. Bessa). Meshfree Methods for Large-Scale Computational Science and Engineering. October 2014.
22. “A nonlocal poroelastic approach to fluid driven fracture.” (with J.R. York, A. Katiyar, H. Ouchi, M. Sharma). World Congress on Computational Mechanics XI. July 2014.
23. “Reproducing Continuum Dynamics”. (with M. Bessa, W.K. Liu, T. Belytschko). World Congress on Computational Mechanics 2014. July 2014.
24. “A nonlocal poroelastic approach to fluid driven fracture.” (with J.R. York, A. Katiyar, H. Ouchi, M. Sharma). US National Congress on Theoretical and Applied Mechanics. June 2014.
25. “Bridging the length scales by linking the atomistic model with coarser peridynamic models through molecular dynamics simulation of Polyethylene”. (with R. Rahman). Mach Conference 2014. April 2014.
26. “Regularizing numerical simulations of strain-localization using a peridynamics-based plasticity formulation”. (with Md.I. Kahn, D.J. Littlewood, and J.A. Mitchell). International Workshop on Computational Mechanics of Materials, IWCMM XXIII. October 2013
27. “A non-local formulation for fluid flow and mass transport in porous media based on peridynamic theory”. (with A. Katiyar and M. Sharma). 12th US National Congress on Computational Mechanics. July 2013.
28. “A novel hierarchical multiscale modeling framework for polyethylene systems using Peridynamics and molecular dynamics”. (with R. Rahman). 2013 Mach Conference, Annapolis, MD. April 2013.
29. “Two-Dimensional Semi-Analytic Solutions to the Linearized State-Based Peridynamic Equilibrium Equation”. (with J.T. O’Grady). USACM Workshop on Nonlocal Damage and Failure: Peridynamics and other nonlocal methods. March 2013.
30. “A Peridynamics Based Hierarchical Multiscale Modeling Framework Between Continuum and Atomistic Scales”. (with R. Rahman, A. Haque). USACM Workshop on Nonlocal Damage and Failure: Peridynamics and other nonlocal methods. March 2013.
31. “Lessons Learned in Modeling Ductile Failure with Peridynamics”. (with D.J. Littlewood). USACM Workshop on Nonlocal Damage and Failure: Peridynamics and other nonlocal methods. March 2013.
32. “A Peridynamics Formulation of the Coupled Mechanics-Fluid Flow Problem”. (with A. Katiyar, H. Ouchi, M.M. Sharma). USACM Workshop on Nonlocal Damage and Failure: Peridynamics and other nonlocal methods. March 2013.
33. “Implicit time integration of an ordinary state-based peridynamic plasticity model with isotropic hardening.” (with D.J. Littlewood, J.A. Mitchell, M.L. Parks). ASME IMECE 2012. November 2012.
34. “Implicit time integration of an ordinary state-based peridynamic plasticity model with isotropic hardening.” (with D.J. Littlewood, J.A. Mitchell, M.L. Parks). SiViRT Simulation and Vizualization Symposium. November 2012.
35. “Peridynamic Modeling of Localization in Ductile Metals.” (with D.J. Littewood and B.L. Boyce) International Workshop on Computational Mechanics of Materials IWCMM XXII. September 2012.
36. “Viscoplasticity using peridynamics.” (with S.A. Silling and W. Chen) 10th US National Congress on Computational Mechanics. July 2009.

Student Delivered

1. “Dynamic fracture modeling of ductile materials with peridynamics.” (with M. Behzadnasab) 13th World Congress on Computational Mechanics / 2nd Pan American Congress on Computational Mechanics (WCCM 2018). New York City, New York. July 2018.
2. “Peridynamic modeling of dynamic fracture in metallic materials.” (with M. Behzadnasab) USACM Thematic Conference on Meshfree and Particle Methods: Applications and Theory (MFPM 2018). Santa Fe, New Mexico. September 2018.
3. “A peridynamic study of predicting ductile fracture in additively manufactured metal.” (with M. Behzadnasab) The 1st Annual Meeting of SIAM Texas-Louisiana Section. Baton Rouge, Louisiana. October 2018.
4. “On the stability of the generalized, ordinary, finite deformation constitutive correspondence model of peridynamics.” (with M. Behzadnasab) ASME’s International Mechanical Engineering Congress & Exposition (IMECE 2018). Pittsburgh, Pennsylvania, November 2018.
5. “A stabilized hypoelastic constitutive correspondence model for peridynamics.” (with M. Behzadnasab) 2019 Minerals, Metals & Materials Society Annual Meeting & Exhibition (TMS 2019). San Antonio, Texas. March 2019.
6. “Dynamic ductile fracture characterization with peridynamics: A Sandia Fracture Challenge study.” (with M. Behzadnasab) The Fourteenth Pan American Conference on Applied Mechanics (PACAM XVI). Ann Arbor, Michigan. May 2019.
7. “A model for the transport of miscible fluids in the presence of anamalous diffusion.” (with R. Tabasi). ASME 2017 International Mechanical Engineering Congress and Exposition. November 2017.
8. “Modeling perturbed shock wave decay in granular materials with intra-granular fracture.” (with M. Behzadinasab and T.J. Vogler) 20th Biennial Intl. Conference of the APS Topical Group on Shock Compression of Condensed Matter. July 2017.
9. “Modeling of Contact and Non-Local Friction in a Peridynamic Framework.” (with J.R. York). 13th US National Congress on Computational Mechanics. July 2015.
10. “Mesh-Free Non-ordinary Peridynamic Bending.” (with J. O’Grady). 13th US National Congress on Computational Mechanics. July 2015.
11. “A Peridynamic Model for Hydraulic Fracture.” (with H. Ouichi, A. Katiyar, M. Sharma). 13th US National Congress on Computational Mechanics. July 2015.
12. “Peridynamic beams, plates, and shells: a non-ordinary state-based model.” (with J. O’Grady). ASME 2014 International Mechanical Engineering Congress and Exposition. November 2014.
13. “Peridynamic beams, plates, and shells: a non-ordinary state-based model.” (with J. O’Grady). Society of Engineering Science 2014. October 2014.
14. “The Next Generation Model for Predicting the Growth of Complex Fracture Networks.” (with J.R. York). 2014 Hydraulic Fracturing and Sand Control Joint Industry Program Technical Review. April 2014.
15. “A peridynamic model of diffusive fluid flow through a deformable media.” (with J.R. York). 2013 SACNAS National Conference. October 2013.
16. “A complex-step method for tangent-stiffness calculation in a massively parallel computational peridynamics code.” (with M.D. Brothers and H.R. Millwater). 12th US National Congress on Computational Mechanics. July 2013.
17. “Intragranular fracture and frictional effects in granular materials under pressure-shear loading.” (with A.M. Peterson and T.J. Vogler) 18th Biennial Intl. Conference of the APS Topical Group on Shock Compression of Condensed Matter held in conjunction with the 24th Biennial Intl. Conference of the Intl. Association for the Advancement of High Pressure Science and Technology (AIRAPT). July 2013.

Poster

1. “Sandia Fracture Challenge 2017: Peridynamics blind prediction of dynamic crack growth.’ (with M. Behzadnasab) 13th World Congress on Computational Mechanics / 2nd Pan American Congress on Computational Mechanics (WCCM 2018). New York City, New York. July 2018.
2. “Sandia Fracture Challenge 2017: peridynamic blind prediction of dynamic crack growth in ductile materials.” (with M. Behzadnasab) USACM Thematic Conference on Meshfree and Particle Methods: Applications and Theory (MFPM 2018). Santa Fe, New Mexico. September 2018.
3. “A stabilized, hypoelastic constitutive correspondence framework for peridynamics.” (with M. Behzadnasab) SIAM Conference on Computational Science and Engineering 2019 (SIAM-CSE19). Spokane, Washington. February 2019.
4. “Modeling perturbed shock wave decay in granular materials with intra-granular fracture.” (with M. Behzadinasab and T.J. Vogler) 20th Biennial Intl. Conference of the APS Topical Group on Shock Compression of Condensed Matter. July 2017.
5. “A Peridynamic Model for Hydraulic Fracture.” (with J.R. York) USACM Thematic Workshop on Nonlocal Models in Mathematics, Computation, Science, and Engineering. Oak Ridge National Laboratory. October 2015.
6. “Intragranular fracture and frictional effects in granular materials under pressure-shear loading.” (with A.M. Peterson and T.J. Vogler) 18th Biennial Intl. Conference of the APS Topical Group on Shock Compression of Condensed Matter held in conjunction with the 24th Biennial Intl. Conference of the Intl. Association for the Advancement of High Pressure Science and Technology (AIRAPT). July 2013.

Software

• Core developer for Peridigm open source peridynamics software
  • Website: https://peridigm.sandia.gov
  • Source Code: https://github.com/peridigm/peridigm
• Various other projects developed and contributed to
  • Source Codes: https://github.com/johntfoster

Blog

• Contains various useful code snippets, examples, and resources primarily targeted to assist in students working under my supervision and other researchers in scientific computation.
  • Website: https://johnfoster.pge.utexas.edu/blog/

Grant Proposals

Externally Funded

1. Assessing Capillary End Effects on Large Scale Tight Reservoir Drainage. American Chemical Society, 2021-2023. PI $110,000.
2. MATNIP: Mathematical Foundations of Nonlocal Interface Problems. Sandia National Laboratories, 2020-2022. PI $121,000.
3. DiReCT: Digital Reservoir Characterization Technology IAP, 2020-23. co-PI w/ M. Pyrcz, E. van Oort, C. Torres-Verdin Total Award to-date: $960,000 Foster Award to-date: $360,000.
4. ASCeND: ASymptotically Compatible strong form foundations for Nonlocal Discretization. Sandia National Laboratories, 2018-2021. PI $300,000.
5. “Student and Postdoc Travel Support for the 15th USNCCM in Austin, TX.” National Science Foundation, 2019, Proj. No. 1935320. PI $25,000, 2019
6. IAP on Hydraulic Fracturing. Support for GRA (Shivam Agrawal) 2016-2019. co-PI/co-advisor w/ M. Sharma (UT-Austin) $33,832 (1/2 of total support)
7. Pulse Fracture Simulation. GE Global Research, 2016. PI $100,000.
8. IAP on Hydraulic Fracturing. Support for GRA (Jason York) 2016. co-PI w/ M. Sharma (UT-Austin) $33,845
9. IAP on Hydraulic Fracturing. Support for GRA (Jason York) 2015. co-PI w/ M. Sharma (UT-Austin) $39,819
10. Nonlocal and fractional order methods for near-wall turbulence, large-eddy simulation, and fluid–structure interaction. Army Research Office, 2015-2018. ONRFOA14-012, PI $345,000.
11. Fiber failure modeling with peridynamics. Subaward from Army Reasearch Laboratories Materials in Extreme Dynamic Environments Cooperative Research Agreement. The Johns Hopkins University, 2014. PI $101,306.
12. MURI Center for Material Failure Prediction Through Peridynamics. Air Force Office of Scientific Research, 2013-2018. ONRBAA12-020, co-PI w/ E. Madenci (Arizona), F. Bobaru (Nebraska), N. Chawla (Arizona State), Q. Du (Columbia) Total Award $7,500,000. Foster Award: $959,153.
13. Predictive simulation of material failure using peridynamics-advanced constitutive modeling, verification, and validation. Air Force FY2013 Young Investigator Program. BAA-AFOSR-2012-0001, AFOSR, 2013-2015. PI $360,000.
14. Towards a multiscale failure modeling paradigm for polymers: statistical coarse-graining of molecular dynamics into peridynamics. Subaward from Army Reasearch Laboratories Materials in Extreme Dynamic Environments Cooperative Research Agreement. The Johns Hopkins University, 2013. PI $91,925.
15. Peridynamic simulation of pressure-shear experiments on granular media. Sandia National Laboratories, 2013. PI $29,071
16. Fracture Design, Placement And Sequencing In Horizontal Wells. National Energy Technology Laboratory 2012-2016, DE-FOA-0000724 co-PI w/ M. Sharma (UT-Austin) Total Award: $1,592,451, Foster Award: $275,250.
17. Statistical coarse-graining of molecular dynamics into peridynamics. Subaward from Army Reasearch Laboratories Materials in Extreme Dynamic Environments Cooperative Research Agreement. The Johns Hopkins University, 2012. PI $91,925.
18. Peridynamic Simulation of Granular Materials Undergoing Shock Compression. Sandia National Laboratories, 2012. PI $32,597
19. Sandia X-Prize Necking Challenge. Sandia National Laboratories, 2012. PI $44,700.

Internally Funded

1. Moncrief Grand Challenge: GFEM Framework for Reservoir Simulation of Unconventionals. Institute for Computational Engineering and Sciences, 2018. PI $75,000
2. Application of Peridynamics to Hydraulic Fracture Modeling. The University of Texas at San Antonio – Office of the Vice President for Research, 2012. PI $18,927.

Pending

1. SciML at CAMINO: Sandia Supplementary University Partnerships Proposal. Sandia National Laboratories. 2023-2026. PI. Requested $525,000.
2. DOE Earthshot: Center for Multiscale Mechanics & Flow. Department of Energy LAB 23-2954, 2023-2027. Co-PI. Requested $20MM, Foster share: $909,274
3. Calcined Petroleum Coke as a High-Temperature Diagnostic Proppant for Geothermal Applications. Department of Energy DE-EE0007080, 2023-2026. Co-PI. Requested $1.5M
4. Hydrogen storage in salt caverns in the Permian Basin: Seal integrity evaluation and field test. Department of Energy DE-FOA-0002400, 2023-2025. Co-PI. Requested $1.5M

Courses Taught

• PGE 310 - Numerical Methods and Programming (UT S2020-22)
• PGE 334 - Reservoir Geomechanics (UT S2015, S2016, S2017, S2018)
• PGE 383 - Advanced Geomechanics (UT F2014, F2015)
• PGE 323M - Reservoir Engineering III (UT F2015-21)
• Introduction to High-Performance Computing (UTSA F2012, F2013, S2014, UT S2018, F2018, S2019-23)
• ME 6043 – Continuum Mechanics (UTSA F2012, F2014)
• ME 4603 – Finite Element Analysis (UTSA F2011)
• ME 400/500 – Numerical Methods (UNM F2010)

Advising and related student services

Graduate Students (Graduated)

PhD

1. Mingyaun Yang PhD PGE 2022
2. Rambod Yousefzadeh Tabasi PhD EM 2022
3. Xiao Xu PhD CSEM 2022
4. Mayowa Olugbenga PhD PE 2021 co-advised with K. Gray
5. Yu Leng PhD PE 2020 (Postdoctoral Researcher at LANL)
6. Shivam Agrawal, PhD PE 2019 co-advised with M. Sharma (SparkCognition)
7. Masoud Behzadinasab PhD EM 2019 (PTC)
8. Jason York, PhD PE 2018 (Artemis Capital)
9. James O’Grady, PhD ME 2014 (Army Research Lab)

MS

1. Odai Elyas, MS PE 2022
2. Akhil Potla, MS EM 2022 co-advised with L. Lake (Sandia National Laboratories)
3. Katy Hanson, MS PE 2018 co-advised with E. van Oort (Applied Research Laboratories)
4. Xiao Xu, MS PE 2017
5. Eric Lynd, MS PE 2017 co-advised with Q. Nguyen
6. Sai Uppati, MS PE 2016
7. Amanda Peterson, MS ME 2014 (UTSA)
8. Md. Imran Khan, MS ME 2014 (UTSA)
9. Michael Brothers, MS ME 2013 (UTSA)
10. Jason York, MS ME 2012 (UTSA)
11. Arron Werthiem, MS ME 2012 (UTSA)

Graduate Students (In Progress)

PhD

1. Elnara Rustamzade co-advised with M. Pyrcz
2. Javier Guerrero co-advised with N. Espinoza
3. Fehmi Ozbayrak co-advised with M. Pyrcz

MS

1. Ruoyu Wang (PGE) co-advised with M. Pyrcz & L. Lake
2. Barun Das (PGE)
3. Nelson Morrow (EM)
4. Mohammad Suaid (PGE)

Postdoctoral Researcher’s Supervised

1. James O’Grady, Ph.D. (UT)
2. Rezwanur Rahman, Ph.D. (UTSA/UT)
3. Shamima Yasmin, Ph.D. (UTSA)

Undergraduate Research Assistants

1. P. Eric Briseno, B.S.M.E. 2013
2. Robert Knobles, B.S.M.E. 2014 (Baker-Hughes)
3. Robert Brothers
4. Jason Crandall
5. Sam Petzold – Moncrief Summer Intern

Academic-related Professional and Public Service

Conferences/Workshops Organized

1. US National Congress on Computational Mechanics 15
   • Conference Chair
   • Held in Austin, TX, July 28-August 1, 2019
   • http://15.usnccm.org
2. Workshop on Nonlocal Methods in Fracture
   • Sponsered by the US Association for Computational Mechanics.
   • Held in Austin, TX, Janruary 15-16, 2018
   • http://nmf2018.usacm.org
3. Workshop on Isogeometric Analysis and Meshfree Methods
   • Sponsered by the US Association for Computational Mechanics.
   • Held at UCSD, October 10-12, 2016
   • http://iga-mf.usacm.org
4. Workshop on Meshfree Methods for Computational Science and Engineering
   • Sponsered by the US Association for Computational Mechanics.
   • Held at UCF, October 27-28, 2014
   • http://mmlcse2014.usacm.org
5. Workshop on Nonlocal Damage and Failure: Peridynamics and other nonlocal models.
   • Sponsered by the US Association for Computational Mechanics.
   • Held at UTSA Downtown Campus, March 11-12, 2013
   • http://ndf2013.usacm.org

Mini-symposia Organized

1. Damage and Fracture. USACM Conference on Meshfree and Particle Methods: Applications and Theory. September 2018.
2. Advances in Meshfree Methods and Peridynamics. EMI 2018.
3. Peridynamic Modeling of Material Behavoir. ASME IMECE 2017.
4. Peridynamic Modeling and Simulation. USACM USNCCM13.
5. Computational Geomechanics. EMI 2016.
6. Modeling of Material Failure Using Approaches Beyond Locality: A Celebration of Dr. Stewart Silling’s 60^th Birthday, ASME IMECE2016
7. Advances in Galerkin and Collocation Meshfree Methods, WCCM 2016.
8. Corrosion Damage and Stress Corrosion Cracking: Experiments, Modeling, and Computations, ASME IMECE2015
9. Advances in nonlocal/peridynamic modeling: Symposia in honor of Dr. Stewart Silling’s 55^th birthday, ASME IMECE2012.
10. Multiscale methods and nonlocal theories for complex material behavior. USACM USNCCM12.
11. Multiscale Modeling of Dynamic Material Behavior, SEM Annual Conference 2014.
12. Multiscale Modeling of Dynamic Material Behavior, SEM Annual Conference 2013.
13. Multiscale Modeling of Dynamic Material Behavior, SEM Annual Conference 2012.

Administrative and Committee Service

Committee Assignments

Department

• PGE Undergraduate Studies 2015-2017
• PGE Graduate Admissions Committee 2015-2017
• PGE Department Awards Committee 2014-2017
• Graduate Committee 2013-2014 (UTSA)
• Faculty Search Committee 2013-2014 (UTSA)
• Department Promotional Activities 2012-2013 (UTSA)
• Seminar 2011-2012 (UTSA)

University

• Cockrell School Engineering Honors 2015-2017
• Undergraduate Research Day Planning Committee 2013-2014 (UTSA)

Student Organization Advisor

• Programming for Engineers & Scientists 2016
• Tau Beta Pi 2013-2014 (UTSA)
• Formula SAE Car Team 2013-2014 (UTSA)

Associate Editor

• Journal of Peridynamics and Nonlocal Modeling

Reviewer For

Journals

• Computational Geosciences, Journal of Applied Mechanics, Computational Methods in Applied Mechanics and Engineering, Journal of Computational Particle Mechanics, Journal of Microelectromechanical Systems, Computational Mechanics, Int. Journal of Fracture, Applied Mathematics & Computation, Int. Journal of Impact Engineering, Engineering Fracture Mechanics, Experimental Mechanics, Review of Scientific Instruments, Int. Journal of Multiscale Computational Engineering, Int. Journal of Solids and Structures, CMC: Computers, Materials, & Continua, Journal of Mechanics of Materials and Structures.

Books

• Split Hopkinson (Kolsky) Bar. W. Chen and B. Song. Springer 2010.

Book Proposals

• CRC Press

Organizations

• Society of Petroleum Engineers, US Association for Computational Mechanics, Pi Tau Sigma - Mechanical Engineering Honor Fraternity, Tau Beta Pi - National Engineering Honor Society, American Society of Mechanical Engineers, American Institute of Aeronautics and Astronautics, Society for Experimental Mechanics – Dynamic Behavior of Materials Technical Division Committee Member, DYMAT, American Society for Engineering Education

Last updated: 2023/06/08