Using of SphericalContact Models in 3D ManipulationModeling of Au Nanoparticles using Atomic Force Microscopy to Calculate the Critical Force and Time

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TAHERI M.

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Journal Paper

Paper Information

Journal: JOURNAL OF MECHANICAL ENGINEERING Year:2018 | Volume:48 | Issue:2 (83) Page(s): 175-184

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Title

Using of SphericalContact Models in 3D ManipulationModeling of Au Nanoparticles using Atomic Force Microscopy to Calculate the Critical Force and Time

Author(s)

TAHERI M. | Issue Writer Certificate

Keywords

3D manipulation

different contact models

spherical nanoparticles

critical force and time

Abstract

Nowadays manipulation by using atomic force microscopeis one of the modern methods of construction micro/nano-scale equipment has been of interest to researchers. Because of this method requires detailed and complex processes and involves high costs, before any experimental work should be paid to accurate modeling of this process. The accurate modeling of 3D manipulation process is made of four major parts including the kinematic, dynamic, friction and contact. 3D modeling of static and dynamic manipulation previously has been studied by various researchers, but less attention has been to the frictional and contact modeling. In this paper for the first time, four contact spherical models, including Hertz, JKR, DMT and BCP models for 3D nanomnipulation have been developed and used. The purpose of the application of these models is investigating their effects on critical force and time in 3D manipulation, in order to accurate modeling of motion of nanoparticles on the substrate. The results indicate that, Hertz contact model, because regardless of the adhesion forces, shows the least amount of critical force and time, also the results show that the rolling particles around the x axis is the most likely mode of motion and sliding particle along the x axis is the less likely mode of motion.

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APA: Copy

TAHERI, M.. (2018). Using of SphericalContact Models in 3D ManipulationModeling of Au Nanoparticles using Atomic Force Microscopy to Calculate the Critical Force and Time. JOURNAL OF MECHANICAL ENGINEERING, 48(2 (83) ), 175-184. SID. https://sid.ir/paper/270003/en

Vancouver: Copy

TAHERI M.. Using of SphericalContact Models in 3D ManipulationModeling of Au Nanoparticles using Atomic Force Microscopy to Calculate the Critical Force and Time. JOURNAL OF MECHANICAL ENGINEERING[Internet]. 2018;48(2 (83) ):175-184. Available from: https://sid.ir/paper/270003/en

IEEE: Copy

M. TAHERI, “Using of SphericalContact Models in 3D ManipulationModeling of Au Nanoparticles using Atomic Force Microscopy to Calculate the Critical Force and Time,” JOURNAL OF MECHANICAL ENGINEERING, vol. 48, no. 2 (83) , pp. 175–184, 2018, [Online]. Available: https://sid.ir/paper/270003/en

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