Dynamic analysis of a micro‐cantilever beam in non‐contact mode: Classic and Strain Gradient theories
Author:
Affiliation:
1. Center of Advanced Systems & Technologies (CAST), School of Mechanical Engineering University of Tehran Tehran Iran
2. Energy Systems Department, School of Advanced Technologies Iran University of Science and Technology Tehran Iran
Publisher
Wiley
Subject
Medical Laboratory Technology,Instrumentation,Histology,Anatomy
Link
https://onlinelibrary.wiley.com/doi/pdf/10.1002/jemt.23909
Reference39 articles.
1. Study of the sensitivity and resonant frequency of the flexural modes of an atomic force microscopy microcantilever modeled by strain gradient elasticity theory
2. Analysis of micro-sized beams for various boundary conditions based on the strain gradient elasticity theory
3. Closed-form approximation and numerical validation of the influence of van der Waals force on electrostatic cantilevers at nano-scale separations
4. Control of chaos in atomic force microscopes
5. Numerical analysis of complex dynamics in atomic force microscopes
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1. Flexural resonant frequencies of an AFM cantilever in viscoelastic surface contact mode using modified nonlocal elasticity theory;Archive of Applied Mechanics;2024-06-04
2. GPL-Reinforced composite piezoelectric microcantilever dynamics in atomic force microscope;Structures;2023-11
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