Dr. Mohammad Silani

Dr. Mohammad Silani

silani@iut.ac.ir
Office
Room 41, Department of Mechanical Engineering, Isfahan University of Technology, Isfahan, 8415683111, IRAN
Phone
+98 313 3912667
Fax
+98 313 3912628
Positions
Associate Professor of Mechanical Engineering
Research Interests
Multiscale Modeling of Materials
Computational Mechanics
FEM and XFEM
Composite and Nanocomposite Materials
Scaled Boundary Finite Element Method (SBFEM)
Computational Homogenization
Stochastic Modeling of Nano-materials
type: Journal
Title Conference / Journal Date
Prediction of Wear Behavior in Surface Contact Using CDM and ANN Models International Journal of Mechanical Engineering and Robotics Research
Molecular Dynamics Analysis of Temperature and Shear Stress Effects on Nickel Bi-Crystal Amorphization IRANIAN JOURNAL OF CHEMISTRY and CHEMICAL ENGINEERING-INTERNATIONAL ENGLISH EDITION
شيمي و مهندسي شيمي
Multi-objective optimization of AlCrN coated carbide cutting tools for stress and temperature reduction Journal of Manufacturing Processes
Comparative analysis of local and nonlocal elasticity theories at the nanoscale via FEM and MD simulations MECHANICS OF ADVANCED MATERIALS AND STRUCTURES
Phase-field modeling of stressed grain growth in nanocrystalline metals INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES
Optimizing angular velocity in a shape memory alloy heat engine: The role of key design variables Smart Materials and Structures
Mechanics-based phase-field model for directional microstructure evolution: Multiscale finite element simulation of IN718 IN DED process COMPUTATIONAL MATERIALS SCIENCE
Molecular Dynamics Study of Alumina Nanoparticles; Effects on Silicon Bicrystal Amorphization at Varying Temperatures and External Shear Stresses IRANIAN JOURNAL OF CHEMISTRY and CHEMICAL ENGINEERING-INTERNATIONAL ENGLISH EDITION
شيمي و مهندسي شيمي
Atomistic informed phase-field modeling of edge dislocation evolution in ?3, ?9, and ?19 silicon bi-crystals COMPUTATIONAL MATERIALS SCIENCE
Stress analysis of nanostructures including nanovoids and inclusions based on nonlocal elasticity theory with different kernels International Journal of Applied Mechanics