Vibration analysis of Euler–Bernoulli nanobeams embedded in an elastic medium by a sixth-order compact finite difference method

Faculty	Engineering	Year:	2015
Type of Publication:	ZU Hosted	Pages:
Authors:	Salwa Amien Mohamed ebrhiem Staff Zu Site Abstract In Staff Site
Journal:	Applied Mathematical Modelling Elsevier	Volume:

Keywords :	Vibration analysis , Euler–Bernoulli nanobeams embedded , , elastic
Abstract:	This paper presents an efficient sixth-order finite difference discretization for vibration analysis of a nonlocal Euler–Bernoulli beam embedded in an elastic medium. The Pasternak elastic foundation model is utilized to represent the surro

Author Related Publications

Salwa Amien Mohamed ebrhiem, "A novel differential-integral quadrature method for the solution of nonlinear integro-differential equations", John Wiley & Sons Ltd, 2021 More
Salwa Amien Mohamed ebrhiem, "Thermal vibration characteristics of pre/post‑buckled bi‑directional functionally graded tapered microbeams based on modifed couple stress Reddy beam theory", Springer, 2020 More
Salwa Amien Mohamed ebrhiem, "Nonlinear thermal buckling and postbuckling analysis of bidirectional functionally graded tapered microbeams based on Reddy beam theory", Springer, 2020 More
Salwa Amien Mohamed ebrhiem, "New Smoother to Enhance Multigrid-Based Methods for Bratu Problem", Elsevier, 2008 More
Salwa Amien Mohamed ebrhiem, "Optimally efficient multigrid algorithms for incompressible Euler equations", Emerald Group Publishing Limited, 2008 More

Mohamed Ahmed Hanafy Mahmoud Elshaer, "Plasma discharge for antireflection coating of PV cells", SASEC, 2014 More
Rahma Sadat Musa Meslem, "Analysis of the nanoscale heat transport and Lorentz force based on the time‑dependent Cross nanoluid", springer, 2023 More
Laila Fouad Sedeek Morad, "Exact Solution of Non-Homogeneous Fractional Differential System Containing 2n Periodic Terms under Physical conditions", MDPI, 2023 More
Mohamed Abdel Moneim Abdullah Daly, "Electrochemical Performance of Hydrothermal Synthesized Fe3O4/ReS2 Heterostructure for Supercapacitor Electrodes", Scientific.Net, 2025 More