Personal Information
Amin Moslemi Petrudi

Department of Mechanical Engineering, Tehran University, Tehran, Iran

Amin Moslemi Petrudi
Educations
From 2012 to 2016, Tehran University , Iran
Work Experiences
From 2014 to 2020, Researcher , Tehran
Speciality
Mechanical
Journal Articles
Numerical and Analytical Simulation of Ballistic Projectile Penetration due to High Velocity Impact on Ceramic Target
Analytical Investigation of the Vibrational and Dynamic Response of Nano-Composite Cylindrical Shell Under Thermal Shock and Mild Heat Field by DQM method
Numerical and Experimental Study of Oblique Penetration of a Blunt Projectile into Ceramic-Aluminum Target
Numerical Study of the Rheological Properties of Hybrid Nano fluid via MOPSO Algorithm using RSM Method and the Nusselt Number Optimization
Optimization and Experimental Investigation of the Ability of New Material from Aluminum Casting on Pumice Particles to Reduce Shock Wave
One-Dimensional Analysis and Modeling of the Xu 7 Engine Due to Changes in Valve Timing to Improve Engine Performance
Numerical and Experimental Analysis of Stacking Sequences Effects in Composite Mechanical Joints under Impact Loadings
Numerical and Analytical Study of Fatigue and Degradation in Multilayer Composite Plates
Validation and Optimization of Thermophysical Properties for Thermal Conductivity and Viscosity of Nanofluid Engine Oil using Neural Network
The Effect of Angles of the Building Corners on its Pattern of Explosive Loading of Side Faces in the case of the External Explosion
Investigation of Crack Growth by Loading Fatigue due to Fluid and Structural Coupling Vibrations in the Joint of Thermowell Welding in Gas Pipeline
Investigating and Modeling the Factors Affecting Thermal Optimization and Dynamic Viscosity of Water Hybrid Nanofluid/Carbon Nanotubes via MOPSO using ANN
Dynamic and Vibration Analysis of Nano-Composite Hollow Cylindrical with Piezoelectric Layers in thermal load by DQM Method
Analytical and Dynamic study of Pulled Mass Nonlinear Vibration by Two Cables using Newton's Harmonic Balance Method
Multi-objective Optimization to Increase Nusselt Number and Reduce Friction Coefficient of Water/Carbon Nanotubes via NSGA II using Response Surface Methodology
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