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Mohammad Mashayekhi
Mohammad Mashayekhi
Department of Mechanical Engineering, Isfahan University of Technology, Iran
Email verificata su cc.iut.ac.ir - Home page
Titolo
Citata da
Citata da
Anno
A new calibration method for ductile fracture models as chip separation criteria in machining
MR Vaziri, M Salimi, M Mashayekhi
Simulation Modelling Practice and Theory 18 (9), 1286-1296, 2010
582010
Ductile crack growth based on damage criterion: Experimental and numerical studies
M Mashayekhi, S Ziaei-Rad, J Parvizian, J Niklewicz, H Hadavinia
Mechanics of Materials 39 (7), 623-636, 2007
562007
Evaluation of chip formation simulation models for material separation in the presence of damage models
MR Vaziri, M Salimi, M Mashayekhi
Simulation Modelling Practice and Theory 19 (2), 718-733, 2011
482011
Analysis of blanking process using various damage criteria
M Farzin, HR Javani, M Mashayekhi, R Hambli
Journal of materials processing technology 177 (1), 287-290, 2006
462006
Numerical analysis of damage evolution in ductile solids
M Mashayekhi, S Ziaei-Rad, J Parvizian, K Nikbin, H Hadavinia
Structural Durability & Health Monitoring 1 (1), 67, 2005
392005
Continuum damage mechanics analysis of strip tearing in a tandem cold rolling process
M Mashayekhi, N Torabian, M Poursina
Simulation Modelling Practice and Theory 19 (2), 612-625, 2011
372011
Improvement of the Extended Finite Element Method for Ductile Crack Growth
R Pourmodheji, M Mashayekhi
Materials Science and Engineering: A, 2012
362012
Cohesive zone and level set method for simulation of high cycle fatigue delamination in composite materials
A Amiri-Rad, M Mashayekhi, FP van der Meer
Composite Structures 160, 61-69, 2017
322017
Continuum damage mechanics application in low-cycle thermal fatigue
M Mashayekhi, A Taghipour, A Askari, M Farzin
International Journal of Damage Mechanics 22 (2), 285-300, 2013
292013
A non-local implicit gradient-enhanced model for unstable behaviors of pseudoelastic shape memory alloys in tensile loading
H Badnava, M Kadkhodaei, M Mashayekhi
International Journal of Solids and Structures 51 (23), 4015-4025, 2014
252014
Using the finite cell method to predict crack initiation in ductile materials
M Ranjbar, M Mashayekhi, J Parvizian, A Düster, E Rank
Computational materials science 82, 427-434, 2014
242014
Identification and validation of a ductile damage model for A533 steel
M Mashayekhi, S Ziaei-Rad
Journal of materials processing technology 177 (1), 291-295, 2006
242006
Numerical predictions and experimental validations of ductile damage evolution in sheet metal forming processes
FH Aboutalebi, M Farzin, M Mashayekhi
Acta Mechanica Solida Sinica 25 (6), 638-650, 2012
232012
Prediction of All-Steel CNG Cylinders Fracture in Impact by Using Damage Mechanics Approach
M Mashayekhi
Scientia Iranica 21 (3), 609-619, 2014
162014
Improvement of orthogonal cutting simulation with a nonlocal damage model
A Shams, M Mashayekhi
International journal of mechanical sciences 61 (1), 88-96, 2012
162012
An anisotropic gradient damage model based on microplane theory
H Badnava, M Mashayekhi, M Kadkhodaei
International Journal of Damage Mechanics 25 (3), 336-357, 2016
152016
A cohesive zone approach for fatigue-driven delamination analysis in composite materials
A Amiri-Rad, M Mashayekhi
Applied Composite Materials 24, 751-769, 2017
132017
Modeling of unstable behaviors of shape memory alloys during localization and propagation of phase transformation using a gradient-enhanced model
H Badnava, M Kadkhodaei, M Mashayekhi
Journal of Intelligent Material Systems and Structures 26 (18), 2531-2546, 2015
132015
A two-scale damage model for high cycle fatigue delamination in laminated composites
A Amiri-Rad, M Mashayekhi, FP van der Meer, H Hadavinia
Composites Science and Technology 120, 32-38, 2015
112015
Biodegradation evaluation of poly (lactic acid) for stent application: Role of mechanical tension and temperature
S Khalaj Amnieh, P Mosaddegh, M Mashayekhi, M Kharaziha
Journal of Applied Polymer Science 138 (19), 50389, 2021
102021
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
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