联系我们
Isaac Scientific Publishing
New Horizons in Mechanical Engineering
Dr. Mohammad Reza Karamooz,  Graduate University of Advanced Technology, Iran
Assistant Professor in Mechanical Engineering
Graduate University of Advanced Technology
Kerman, 76311-33131, Iran
Research Interests
• Shape memory alloys,
• Nonlinear finite element,
• Biomechanics,
• Tissue engineering,
• Scaffolding,
• Porous materials,
• Additive manufacturing,
• Bone implants,
• Bone scaffolds,
• Bioprinting,
• Constitutive modeling,
• advanced materials
Selected Publication List
• Karamooz Ravari M.R., Forouzan M.R., Frequency equations for the in-plane vibration of orthotropic circular annular plate, Archive of Applied Mechanics (2011) 81: 1307-1322
• Karamooz Ravari M.R., Forouzan M.R., Moosavi H., Flow irregularity and wear optimization in epitrochoidal gerotor pumps, Meccanica (2012) 47: 917-928
• Karamooz Ravari Mohammad Reza, Elliptical lobe shape Gerotor pump design to minimize wear, Frontiers of Mechanical Engineering (2011) 6(4): 429-434
• Karamooz Ravari M.R., Shahidi A.R., Axisymmetric buckling of the circular annular nanoplatesusing finite difference method, Meccanica (2013) 48: 135-144
• Karamooz Ravari M.R., Talebi S., Shahidi A.R., Analysis of the buckling of rectangular nanoplates by use of finite-difference method, Meccanica (2014) 49 (6): 1443-1455.
• Karamooz Ravari M.R., Kadkhodaei M., Badrossamay M., Rezaei R., Numerical investigation on mechanical properties of cellular lattice structures fabricated by fused deposition modeling, International Journal of Mechanical Sciences (2014) 88: 154-161.
• Karamooz Ravari M.R., Kadkhodaei M., A Computationally Efficient Modeling Approach for Predicting Mechanical Behavior of Cellular Lattice Structures, Journal of Materials Engineering and Performance (2015) 24 (1): 245-252.
• Karamooz Ravari M.R., Kadkhodaei M., Ghaei A., A microplane constitutive model for shape memory alloys considering tension--compression asymmetry, Smart Materials and Structures (2015) 24: 075016
• Karamooz Ravari M.R., Kadkhodaei M., Ghaei A., A Unit Cell Model for Simulating The StressStrain Response of Porous Shape Memory Alloys, Journal of Materials Engineering and Performance (2015), DOI: 10.1007/s11665-015-1653-4
• Mehrabi R., and Karamooz Ravari M.R., Simulation of superelastic SMA helical springs, Smart Structures and Systems (2015) 16 (1): 183-194
• Karamooz Ravari M.R., Kadkhodaei M., Ghaei A., Effects of asymmetric material response on the mechanical behavior of porous shape memory alloys, Journal of Intelligent Material Systems and Structures (2016) 27 (12): 1687-1701
• Shahriari B., Karamooz Ravari M.R., Zeighampour H., Vibration analysis of functionally graded carbon nanotube-reinforced composite nanoplates using Mindlin's strain gradient theory, Composite Structures (2015) 134: 1036-1043
• Shahriari B., Karamooz Ravari M.R., Yousefi S., and Tajdari M., A Heuristic Algorithm Based on Line-up Competition and Generalized Pattern Search for Solving Integer and Mixed Integer Nonlinear Optimization Problems, Latin American Journal of Solids and Structures (2016) 13: 224-242
• Karamooz Ravari M.R., Nasr Esfahani S., Taheri Andani M., Kadkhodaei M., Ghaei A., Karaca H. and Elahinia M., On the effects of geometry, defects, and material asymmetry on the mechanical response of shape memory alloy cellular lattice structures, Smart Materials and Structures (2016) 25(2): 025008
• Rezaei R., Karamooz Ravari M.R., Badrossamay M., and Kadkhodaei M., Mechanical Characterization and Finite Element Modeling of POLYLACTIC ACID BCC-Z Cellular Lattice Structures Fabricated by Fused Deposition Modeling, Journal of Mechanical Engineering Science (2016) doi:10.1177/0954406215626941
• Naghieh S., Karamooz Ravari M.R., Badrossamay M., Foroozmehr E., Kadkhodaei M., Numerical Investigation of the Mechanical Properties of the Additive Manufactured Bone Scaffolds Fabricated by FDM: the Effect of Layer Adhesion and Post-heating, Journal of Mechanical Behavior of Biomedical Materials (2016) 59: 241-250
Copyright © 2020 Isaac Scientific Publishing Co. All rights reserved.