Refereed Articles in International Journals

  1. Faghihi, D., Feng, X., Lima, E., Yankeelov, T., Oden, J. T. A Thermodynamical Consistent Coupled Theory for Diffusion-Interface and Deformations: Application to Tumor Growth and Treatment Journal of the Mechanics and Physics of Solids.

  2. Faghihi, D., Carey, V., Michoski, C., Hager, R., Janhunen, S., Chang, C. S., and Moser, R. D. Moment Preserving Constrained Resampling with Applications to Particle-in-Cell Methods. Journal of Computational Physics.

  3. Faghihi, D., Sarkar, S., Naderi, M., Rankin, J.E., Hackel, L. and Iyyer, N., 2018. A probabilistic design method for fatigue life of metallic component. ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part B: Mechanical Engineering, 4(3), p.031005.

  4. Oden, J.T., Lima, E.A., Almeida, R.C., Feng, Y., Rylander, M.N., Fuentes, D., Faghihi, D., Rahman, M.M., DeWitt, M., Gadde, M. and Zhou, J.C., 2016. Toward Predictive Multiscale Modeling of Vascular Tumor Growth. Archives of Computational Methods in Engineering, 23(4), pp.735-779.

  5. Oden, J.T., Farrell, K. and Faghihi, D., 2015. Estimation of Error in Observables of Coarse-Grained Models of Atomic Systems. Advanced Modeling and Simulation in Engineering Sciences, 2(1), p.5.

  6. Farrell, K., Oden, J.T. and Faghihi, D., 2015. A Bayesian Framework for Adaptive Selection, Calibration, and Validation of Coarse-Grained Models of Atomistic Systems. Journal of Computational Physics, 295, pp.189-208.

  7. Prudencio, E.E., Bauman, P.T., Williams, S.V., Faghihi, D., Ravi-Chandar, K. and Oden, J.T., 2014. Real-time Inference of Stochastic Damage in Composite Materials. Composites Part B: Engineering, 67, pp.209-219.

  8. Prudencio, E.E., Bauman, P.T., Faghihi, D., Ravi?Chandar, K. and Oden, J.T., 2015. A Computational Framework for Dynamic Data?Driven Material Damage Control, Based on Bayesian Inference and Model Selection. International Journal for Numerical Methods in Engineering, 102(3-4), pp.379-403.

  9. Voyiadjis, G.Z. and Faghihi, D., 2014. Overview of Enhanced Continuum Theories for Thermal and Mechanical Responses of the Microsystems in the Fast- Transient Process. Journal of Engineering Materials and Technology, 136(4), p.041003.

  10. Voyiadjis, G.Z., Faghihi, D. and Zhang, Y., 2014. A Theory for Grain Boundaries with Strain-Gradient Plasticity. International Journal of Solids and Structures, 51(10), pp.1872-1889.

  11. Faghihi, D. and Voyiadjis, G.Z., 2014. A Thermodynamic Consistent Model for Coupled Strain-Gradient Plasticity With Temperature. Journal of Engineering Materials and Technology, 136(1), p.011002.

  12. Faghihi, D., Voyiadjis, G.Z. and Park, T., 2013. Coupled Thermomechanical Modeling of Small Volume FCC Metals. Journal of Engineering Materials and Technology, 135(2), p.021003.

  13. Voyiadjis, G.Z. and Faghihi, D., 2012. Thermo-mechanical Strain Gradient Plasticity with Energetic and Dissipative Length Scales. International Journal of Plasticity, 30, pp.218-247.

  14. Faghihi, D. and Voyiadjis, G.Z., 2012. Size Effects and Length Scales in Nanoindentation for Body-Centred Cubic Materials with Application to Iron. Proceedings of the Institution of Mechanical Engineers, Part N: Journal of Nanoengineering and Nanosystems, 224(1-2), pp.5-18.

  15. Voyiadjis, G.Z. and Faghihi, D., 2013. Localization in Stainless Steel using Microstructural Based Viscoplastic Model. International Journal of Impact Engineering, 54, pp.114-129.

  16. Voyiadjis, G.Z., Almasri, A.H., Faghihi, D. and Palazotto, A.N., 2012. Analytical Solution for Shear Bands in Cold-Rolled 1018 Steel. Journal of the Mechanical Behavior of Materials, 20 (4-6), pp.89-102.

  17. Voyiadjis, G.Z. and Faghihi, D.., 2013. Gradient Plasticity for Thermo- mechanical Processes in Metals with Length and Time Scales. Philosophical Magazine, 93(9), pp.1013-1053.

  18. Faghihi, D. and Voyiadjis, G.Z., 2012. Thermal and Mechanical Responses of BCC Metals to the Fast-Transient Process in Small Volumes. Journal of Nanomechanics and Micromechanics, 2(3), pp.29-41.

  19. Voyiadjis, G.Z. and Faghihi, D., 2013. The Effect of Temperature on Interfacial Gradient Plasticity in Metallic Thin Films. Journal of Surfaces and Interfaces of Materials, 1(1), pp.30-42.

  20. Faghihi, D. and Voyiadjis, G.Z., 2012. Determination of Nanoindentation Size Effects and Variable Material Intrinsic Length Scale for Body-Centered Cubic Metals. Mechanics of Materials, 44, pp.189-211.

  21. Voyiadjis, G.Z. and Faghihi, D., 2010. Variable (Intrinsic) Material Length Scale for Face-Centred Cubic Metals using Nanoindentation. Proceedings of the Institution of Mechanical Engineers, Part N: Journal of Nanoengineering and Nanosystems, 224(3), pp.123-147.

  22. Voyiadjis, G.Z., Faghihi, D. and Zhang, C., 2011. Analytical and Experimental Determination of Rate and Temperature-Dependent Length Scales using Nanoindentation Experiments. Journal of Nanomechanics and Micromechanics, 1(1), pp.24-40.

  23. Voyiadjis, G.Z., Deliktas, B., Faghihi, D. and Lodygowski, A., 2010. Friction Coefficient Evaluation Using Physically-Based Viscoplasticity Model at the Contact Region During High Velocity Sliding. Acta Mechanica, 213(1-2), pp.39- 52.

Book Chapters and Technical Reports

  1. Oden, J.T., Babuska, I. and Faghihi, D., 2017. Predictive computational science: Computer predictions in the presence of uncertainty. Encyclopedia of Computational Mechanics Second Edition, pp.1-26.

  2. Sarkar, S., Iyyer, N., Naderi, Hackel, L. and Faghihi, D., 2017. Analytical Tool for Design and Repair of Engine Hardware for Robust High Cycle Fatigue. NAVAIR/SBIR report. Department of Defense, Naval Air Systems Command.

  3. Oden, J. T., Feng, Y., Rylander, M. N., Fuentes, D., Almeida, R., Lima, E., and Faghihi, D., 2015. Toward Predictive Multiscale Modeling pf Vascular tumor Growth:Computational and Experimental Oncology for Tumor Prediction, ICES report 15-10, Institute for Computational Engineering and Sciences, The University of Texas at Austin, Austin, TX.

  4. Ravi-Chandar, K., Faghihi, D. and Oden, J.T., 2014. A System for Monitoring Damage in Composite Materials Using Statistical Calibrations and Bayesian Model Selection. Dynamic Data Driven Applications Systems (DDDAS). Springer Berlin Heidelberg.

  5. Bauman, P.T., Faghihi, D., Oden, J. T., Prudencio E.E., Williams, S.V., and Ravi-Chandar, K., 2013. Development of a Stochastic Dynamic Data-Driven System for Prediction of Material Damage. AFOSR report, The Air Force Office of Scientific Research, Arlington, Va.

  6. Voyiadjis, G. Z. and Faghihi, D., 2013. The Effect of Temperature on Interfacial Gradient Plasticity in Metallic Thin Films. H. Altenbach and S. Kruch (eds.), Advanced Materials Modelling for Structures, Advanced Structured Materials, (19) pp. 337-349. Springer-Verlag Berlin Heidelberg.

  7. Voyiadjis, G.Z. and Faghihi, D., 2012, Microstructural Characterization of Metals Using Nano-indentation. Handbook of Micromechanics and Nanomechanics, pp. 569-606. Pan Stanford Publication Co.

  8. Voyiadjis, G.Z., Cai , S., Alshibly, K., Faghihi, D., 2011. Integral Abutment Bridge for Louisiana?s Soft and Stiff Soils: Caminda Bay Bridge. LTRC report. Louisiana Transportation Research Center, Baton Rouge, LA.

Articles in Conference Proceedings

  1. Prudencio, E. E., Bauman, P. T., Williams, S. V., Faghihi, D., Ravi-Chandar, K., Oden, J. T., 2013. A Dynamic Data Driven Application System for Real-time Monitoring of Stochastic Damage. Procedia Computer Science.

  2. Voyiadjis, G. Z., Faghihi, D., and Alshibli, K., 2015. Finite Element Analysis of Integral Abutment Bridge Substructure in Louisiana. 94th Transportation Research Board Annual Meeting.

  3. Voyiadjis, G. Z., and Faghihi, D., 2012. Microstructure to Macro-Scale Using Gradient Plasticity with Temperature and Rate Dependent Length Scale. Procedia IUTAM, 3, 205-227.

  4. Voyiadjis, G. Z., and Faghihi, D., 2012. Thermo-Mechanical Responses of Metals on Fast-Transient Process in Small Volume. Proceedings of the International Congresses on Theoretical and Applied Mechanics (ICTAM).

  5. Voyiadjis, G. Z., and Faghihi, D., 2012. Coupled Viscoplastic Damage Model and Simulation for Metals and Composites. Plenary lecture in Proceedings of International conference on Damage Mechanics (ICDM).