Name Amir Rezaei Sameti Affiliation عضو هیئتعلمی دانشگاه بوعلی سینا Degree _ Website Email a [dot] rezaeisameti [at] basu [dot] ac [dot] ir JournalPaper Presentation Speech WorkShop Book Innovation GrantAttraction Thesis Festival FinishedProject Sales Art Membership StandardCreation Publication TheorizingChair TitleJournal 1 Size, Temperature, and Point Defect Effects on Surface Oxidation Kinetics and Mechanical Properties of Iron Nanowires Under Quasi-Static Loading Materials Today Communications 2 The Influence of Diameter on the Strength and Ductility of BCC Iron Nanowire under Axial Loading: A Reactive Molecular Dynamics Simulation PHYSICA B-CONDENSED MATTER 3 Reactive molecular dynamics analysis of alumina nano-powders under warm compaction process ADVANCED POWDER TECHNOLOGY 4 Mechanical characteristics of die-wall friction on the compaction process of metal nano-powders POWDER TECHNOLOGY 5 Machine learning-based multiscale framework for mechanical behavior of nano-crystalline structures INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES 6 Thermo-mechanical characteristics of oxide-coated aluminum nano-powder INTERNATIONAL JOURNAL OF THERMAL SCIENCES 7 A multiscale framework for atomistic–continuum transition in nano-powder compaction process using a cap plasticity model INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES 8 Multiscale analysis of nano-powder compaction process using the FEM–MD technique POWDER TECHNOLOGY 9 Surface oxidization effect on the mechanical behavior of aluminum nanopowders under triaxial compression test APPLIED SURFACE SCIENCE 10 An atomistic–continuum multiscale analysis for heterogeneous nanomaterials and its application in nanoporous gold foams APPLIED MATHEMATICAL MODELLING 11 Compaction simulation of crystalline nano-powders under cold compaction process with molecular dynamics analysis POWDER TECHNOLOGY 12 A continuum-atomistic multi-scale technique for nonlinear behavior of nano-materials INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES 13 A computational model for atomistic-based higher-order continua using the FEM technique FINITE ELEMENTS IN ANALYSIS AND DESIGN 14 Equivalent Linear Model for Existing Soil-Structure Systems International Journal of Structural Stability and Dynamics