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Moein Taheri
Faculty of Engineering
Department of Mechancial Engineering
Contact Information
Email: M-taheri@araku.ac.ir
Phone: +98(86)3262-5726
Fax: +98(86)3262-5422
Areas of Expertise
Biomanipulation
Nanorobotics
CAD/CAM
Deep drawing
Research Interests
Robotic systems
Automotive engineering
Atomic force microscopy dynamics
Sensitivity analysis
Nano technology
Education
Ph.D., Iran University of Science and Technology, Tehran, Iran, Mechanical Engineering (2015)
M.Sc., Iran University of Science and Technology, Tehran, Iran, Mechanical Engineering (2010)
B.Sc., Amirkabir University of Technology, Tehran, Iran, Manufacturing Engineering (2008)
Biography
Awards
Top Researcher (Islamic Azad University of Damavand) 2014
Top Technologist (Arak University) 2015
Affiliations
Grants and Contracts Awarded
Publications & Presentations

Presentations
1- Fabrication of porous Ni-YSZ anodes by powder injection molding; Proceedings of the ASME 2010 International Mechanical Engineering Congress & Exposition-IMECE2010; November 12-18, 2010
2- Computer-Aided Design of Initial Blanks for Cup-Shaped Rectangular Parts; Proceedings of the ASME 2010 International Mechanical Engineering Congress & Exposition-IMECE2010; November 12-18, 2010
3- Simulation of Nanoparticles Manipulation Using AFM On the Basis of LuGre’s Friction Model; Proceedings of the ASME 2010 International Mechanical Engineering Congress & Exposition-IMECE2010; November 12-18, 2010
4- Simulation of Two-Dimensional Nanomanipulation of Particles by Atomic Force Microscope Based on Coulomb and Hk Friction Models; International Congress on Nanoscience and Nanotechnology; November 9-11, 2010
5- Fabrication of Supports for Solid Oxide Fuel Cells by Powder Injection Molding; International Manufacturing Science & Engineering Conference; June 13-17, 2011
6- Simulating the contact mechanic of HT29 cancer cell based on atomic force microscopy; International Congress on Nanoscience and Nanotechnology; October 22-24, 2014.
7- Sensitivity Analysis of Nano-contact Mechanics Models by using the EFAST sensitivity analysis method; International Congress on Nanoscience and Nanotechnology; October 22-24, 2014.
8- Simulating the AFM-based biomanipulation of cylindrical micro/nanoparticles; International Congress on Nanoscience and Nanotechnology; October 22-24, 2014
Publications
1. Sensitivity Analysis of Nanoparticles Manipulation Based on Different Friction Models; Applied Surface Science
2. Application of JKR Model in Nano-Manipulation of Biological Cell: Air and Liquid Environment; Micro & Nano Letters
3. Simulation of Two-Dimensional Nanomanipulation of Particles Based on the HK and LuGre Friction Models; Arabian Journal for Science and Engineering
4. Modeling of contact theories for the manipulation of biological micro/nanoparticles in the form of circular crowned rollers based on the atomic force microscope; Journal of Applied Physics
5. Modeling of various contact theories for the manipulation of different biological micro/nanoparticles based on AFM; Journal of Nanoparticle Research
6. Dynamic Manipulation of Spherical Yeast Cells Based on Atomic Force Microscopy; Latin American Applied Research
7. Sobol Method Application in Sensitivity Analysis of LuGre Friction Model during 2D Manipulation; Scientia Iranica
8. Simulating the biomanipulation of DNA and yeast micro/nanoparticles based on the atomic force microscope; Proceedings of the Institution of Mechanical Engineers part k-Jornal of Multi Body Dynamics
9. Dynamic modeling and simulation of rough cylindrical micro/nanoparticles manipulation by means of the AFM; Microscopy and Microanalysis
10. 3D modeling and simulation of the AFM-based manipulation of spherical organic nanoparticles with the consideration of contact mechanics theories; Proceedings of the Institution of Mechanical Engineers part k-Jornal of Multi Body Dynamics
11. cantilevers for biological particles; Modern Physics Letters B
12. Investigating the effective parameters in the Atomic Force Microscope-based dynamic manipulation of rough micro/nanoparticles by using the Sobol sensitivity analysis method
13. Simulating the Manipulation of Various Biological Micro/Nanoparticles by Considering a Crowned Roller Geometry
14. Sensitivity Analysis of Nano-contact Mechanics Models in Manipulation of Biological Cell; Nanoscience and Nanotechnology
15. Finite Element Simulation of Contact Mechanics of Cancer Cells in Manipulation Based on Atomic Force Microscopy; International Journal of Nanoscience and Nanotechnology
16. Simulation of soft bacteria contact to be applied in simulating nanomanipulation; Modares Mechanical Engineering
17. Simulating the impact between particles with applications in nanotechnology fields (identification of properties and manipulation); International Nano Letters
18. Effect of different geometrical parameters of atomic force microscope cantilevers in critical force and time based on manipulation with applying EFAST sensitivity analyses; Modares Mechanical Engineering
19. Dynamic Modeling and simulation of nano particle motion in different environments using AFM nano -robot; Modares Mechanical Engineering
20. Sensitivity Analysis of Coulomb and HK Friction Models in Two-Dimensional Manipulation Based on AFM: Sobol Method; International Journal of Nanoscience and Nanotechnology
21. Effective parameters in contact mechanic for micro/nano particle manipulation based on atomic force microscopy; International Journal of Nanoscience and Nanotechnology
22. Sensitivity analysis of material removal rate in dry electro-discharge machining process
23. 3D-Dynamic modeling and simulation of biological nanoparticle motion using AFM nano-robot
24. Robust Controlled Manipulation of Nanoparticles Using the AFM Nanorobot Probe; Arabian Journal for Science and Engineering
25. Sobol method application in dimensional sensitivity analyses of di
?erent AFM
Faculty of Engineering
Department of Mechanical Engineering