Mode shape analysis of dynamic behaviour of cracked nanobeam on elastic foundation
Author:
Funder
Tartu Ülikool
Publisher
IOP Publishing
Subject
General Engineering
Link
https://iopscience.iop.org/article/10.1088/2631-8695/ac2a75/pdf
Reference54 articles.
1. Vibration analysis of 2D-functionally graded nanobeams using the nonlocal theory and meshless method;Ahmadi;Eng. Anal. Boundary Elem.,2021
2. Hygro-thermal vibrations and buckling of laminated nanoplates via nonlocal strain gradient theory;Monaco;Compos. Struct.,2021
3. Dynamic interaction between bi-directional functionally graded materials and magneto-electro-elastic fields: a nano-structure analysis;Tang;Compos. Struct.,2021
4. Buckling and free vibration analyses of a sandwich beam made of a soft core with FG-GNPs reinforced composite face-sheets using Ritz Method;Arefi;Thin–Walled Structures,2021
5. Dynamic stability and vibration of two-phase local/nonlocal VFGP nanobeams incorporating surface effects and different boundary conditions;Behdad;Mech. Mater.,2021
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4. An dynamical evaluation of size-dependent weakened nano-beam based on the nonlocal strain gradient theory;The Journal of Strain Analysis for Engineering Design;2022-11-21
5. Analysis of free vibration of tapered cracked double nanobeams using Maclaurin series;Engineering Research Express;2022-06-01
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