Research interests
Development of advanced computational methods
Application of computational mechanics to extreme deformation modeling
Future research interests
Development of Novel Stable and Accurate Nodal Integration for Meshfree Methods.
Development of Combination methods of Meshfree Methods and Infinite Element methods.
Investigation and Simulation of Shape-memory polymers (SMPs) Behavior through Meshfree Methods
Using PINN (Physics Informed Neural Network) and DEM (Deep Energy Method) to solve physical problems
Development of advanced computational methods
- Consistent essential boundary condition enforcement in Galerkin meshfree methods
- Accelerated thermo-mechanical Galerkin meshfree methods for additive manufacturing
- 2.5D finite/infinite approach for soil-structural interaction
Application of computational mechanics to extreme deformation modeling
- Numerical investigation of tillage and earth-moving operations using stabilized meshfree methods
- Numerical simulation of three-dimensional Fused Deposition Modeling (FDM, polymer materials), 3D printing (thermal Non-Newtonian)
- Numerical simulation of Underground Tunnels subjected to seismic by the 2.5D Finite/ Infinite Element Approach
Future research interests
- Numerical methods:
Development of Novel Stable and Accurate Nodal Integration for Meshfree Methods.
Development of Combination methods of Meshfree Methods and Infinite Element methods.
- Smart material:
Investigation and Simulation of Shape-memory polymers (SMPs) Behavior through Meshfree Methods
- Machine Learning:
Using PINN (Physics Informed Neural Network) and DEM (Deep Energy Method) to solve physical problems