Conferences

[1] V. I. Levitas and M. Javanbakht. Interaction of phase transformations and plasticity at the nanoscale: Phase field approach. International Conference on Martensitic Transformations, 2014, Bilbao, Spain.

[2] V. I. Levitas and M. Javanbakht. Phase field approach to phase transformations, dislocations and their interaction. 11^th World Congress on Computational mechanics (WCCM XI) and 5^th European Conference on Computational Mechanics (ECCM V), 2014, Barcelona, Spain.

[3] M. Javanbakht and V. I. Levitas. Phase field approach to phase transformations, dislocations and their interaction. The 17th U. S. National Congress on Theoretical and Applied Mechanics, Michigan State University, East Lansing, Michigan, 2014.

[4] M. Javanbakht and V. I. Levitas. Advanced phase field approach to dislocation evolution. 50^th Annual Meeting of Society of Engineering Sciences (SES), 2013, Providence, RI, USA.

[5] Levitas V. I. and Javanbakht M., PFA to dislocation evolution and interaction between phase transformation and plasticity. Keynote lecture at Plasticity International conference, 2013, Nassau, Bahamas.

[6] M. Javanbakht and V. I. Levitas. Effect of surface tension and energy on multi-variant phase transformations: phase field approach. 48^th Annual Meeting of Society of Engineering Sciences (SES), 2011, Chicago, Illinois, USA.

[7] M. Javanbakht and V. I. Levitas. Phase field approach to multi-variant phase transformations: effect of surface tension and energy. Applied Mechanics and Materials Conference, ASME, 2011, Chicago, Illinois, USA.

[8] M. Javanbakht and V. I. Levitas. Effect of surface tension and energy on multi-variant phase transformations based on phase field approach. 47^th Annual Meeting of Society of Engineering Sciences (SES), 2010, Ames, Iowa, USA.

[9] M. Javanbakht and V. I. Levitas. Interface propagation and microstructure evolution in surface-induced multivariant phase transformations based on phase field models. Excellence of Graduate Research Competition, 2010, Department of Mechanical Engineering, Iowa State University, Ames, IA, United States.

[10] M. Shakeri, H. Hatamikian, S. N. Sadeghi, M. Javanbakht, Elasticity solution for functionally graded beam with piezoelectric layers under dynamic load. International Joint Journal Conference (IJJCE), 2009, India.

[11]  M. Javanbakht, M. Shakeri, Dynamic analysis of functionally graded cylindrical shells with piezoelectric layers under mechanical load and electrical voltage based on elasticity theory. The  6^th Annual Student Conference on Mechanical Engineering, Tehran, Iran.

[12] A. R. Daneshmehr, M. Javanbakht, M. Shakeri. Three-dimensional elasticity solution of cross-ply shallow and non-shallow FGM panels with piezoelectric layers under dynamic load. The 16^th International Symposium on Smart Structures and Materials & Nondestructive Evaluation and Health Monitoring, 2009, San Diego, California, United States.

 [13] M. Shakeri, M. Javanbakht, A. R. Daneshmehr. Study of finite functionally graded shell panel with piezoelectric layers under dynamic loading based on elasticity. The 10^th International Symposium on Multiscale, Multifunctional & Functionally Graded Materials, 2008, International Center, Sendai, Japan.