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We investigate the application and performance of high-order approximation techniques to one-dimensional nonlocal elastic rods. Governing equations and corresponding discrete forms are derived for the integro-differential formulation proposed by Eringen and the laplacian-based strain gradient formulation developed by Aifantis and coworkers. Accuracy and convergence rate of the numerical solutions obtained with Lagrange, Hermite, B-spline finite elements and C∞ generalized finite elements are assessed against the corresponding analytical solutions.

One-dimensional nonlocal and gradient elasticity: Assessment of high order approximation schemes

MALAGU', Marcello;BENVENUTI, Elena;
2014

Abstract

We investigate the application and performance of high-order approximation techniques to one-dimensional nonlocal elastic rods. Governing equations and corresponding discrete forms are derived for the integro-differential formulation proposed by Eringen and the laplacian-based strain gradient formulation developed by Aifantis and coworkers. Accuracy and convergence rate of the numerical solutions obtained with Lagrange, Hermite, B-spline finite elements and C∞ generalized finite elements are assessed against the corresponding analytical solutions.
2014
Malagu', Marcello; Benvenuti, Elena; C. A., Duarte; A., Simone
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/1945615
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