Gary Dargush

PhD

Gary Dargush.

Gary Dargush

PhD

Gary Dargush

PhD

Research Interests

Computational and applied mechanics; size-dependent and multi-physics mechanics; boundary element methods; finite element methods; thermomechanics; computational fluid dynamics; structural dynamics and earthquake engineering

Contact Information

223 Bell Hall

Buffalo NY, 14260

Phone: (716) 645-2315

gdargush@buffalo.edu

Biography Publications Teaching Research

Selected Publications

  • Hajesfandiari, A., Hadjesfandiari, A.R., Dargush, G.F., “Couple Stress Rayleigh-Bénard Convection in a Square Cavity,” J. Non-Newtonian Fluid Mech., 259, 91-110 (2018).
  • Wetherhold, R.C., Dargush, G.F., Mhatre, T., “Effects of Free-edge Interface Angle on Bi-material Shear Strength,” Int. J. Mech. Sci., 144, 262–273 (2018).
  • Darrall, B.T., Dargush, G.F., “Variational Principle and Time-Space Finite Element Method for Dynamic Thermoelasticity based on Mixed Convolved Action,” Euro. J. Mech. A Solids, 71, 351-364 (2018).
  • Chakravarty, S., Das, S., Hadjesfandiari, A.R., Dargush, G.F., “Variational Inequalities for Heterogeneous Microstructures based on Couple-Stress Theory,” Int. J. Multiscale Comp. Engrg., 16, 119-137 (2018).
  • Rafiee-Dehkharghani, R., Bansal, D., Aref, A.J., Dargush, G.F., “Analysis and Optimal Design of Stress Wave Intensity Attenuation in Layered Structures,” Int. J. Struct. Stabil. Dyn., 18, 1850015, 1-20 (2018).
  • Chakravarty, S., Hadjesfandiari, A.R., Dargush, G.F., “A Penalty-based Finite Element Framework for Couple Stress Elasticity,” Finite Elem. Anal. Design, 130, 65-79 (2017).
  • Apostolakis, G., Dargush, G.F., “Mixed Lagrangian Formalism for Temperature-Dependent Dynamic Thermoplasticity,” J. Engrg. Mech., ASCE, 143, 04017094, 1-10 (2017).
  • Hajesfandiari, A., Hadjesfandiari, A.R., Dargush, G.F., “Boundary Element Formulation for Steady State Plane Problems in Size-dependent Thermoelasticity,” Engrg. Anal. Bound. Elem., 82, 210-226 (2017).
  • Deng, G., Dargush, G.F., “Mixed Lagrangian Formulation for Size-dependent Couple Stress Elastodynamic and Natural Frequency Analyses,” Int. J. Numer. Meth. Engrg., 109, 809-836 (2017).