Name Mohammad Saeed Goodarzi Affiliation عضو هیئتعلمی Degree _ Website Email msgoodarzi [at] bzte [dot] ac [dot] ir JournalPaper Presentation Book Thesis FinishedProject TheorizingChair Speech GrantAttraction Innovation Festival Sabbatical Refereeing Art StandardCreation TitleJournal 1 Experimental hyperviscoelastic constitutive model for numerical study of elastomer materials Applied Nanoscience 2 Nanoindentation characterization of Glass/Epoxy composite for viscoelastic damage interlaminar modeling Engineering Fracture Mechanics 3 Prediction of interlaminar fatigue damages in adhesively bonded joints using mixed-mode strain based cohesive zone modeling Theoretical and Applied Fracture Mechanics 4 Viscoelastic-damage interface model formulation with friction to simulate the delamination growth in mode II shear Mechanics of Time-dependent Materials 5 Transient thermoelastic analysis of carbon/carbon composite multidisc brake using finite element method Advances in Aircraft and Spacecraft Science 6 Modified DEBA for determining size dependent shear fracture energy of laminates Steel and Composite Structures 7 Modified hyper-viscoelastic damage evolution constitutive model for polyurethane materials – an experimental and numerical investigation Mechanics of Advanced Materials and Structures