Abstract

We propose in this paper a Proper Generalized Decomposition (PGD) approach for the solution of problems in linear elastodynamics. The novelty of the work lies in the development of weak formulations of the PGD problems based on the Lagrangian and Hamiltonian Mechanics, the main objective being to devise numerical methods that are numerically stable and energy conservative. We show that the methodology allows one to consider the Galerkin-based version of the PGD and numerically demonstrate that the PGD solver based on the Hamiltonian formulation offers better stability and energy conservation properties than the Lagrangian formulation. The performance of the two formulations is illustrated and compared on several numerical examples describing the dynamical behavior of a one-dimensional bar.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
A Proper Generalized Decomposition (PGD) approach to crack propagation in brittle materials: with application to random field material properties
Hasini Garikapati ... Sergio Zlotnik
Computational mechanics | VOL. 65
Hasini Garikapati, et. al.Hasini Garikapati ... Sergio Zlotnik
26 Oct 2019
Randomized residual‐based error estimators for the proper generalized decomposition approximation of parametrized problems
Kathrin Smetana ... Olivier Zahm
International journal for numerical methods in engineering | VOL. 121
Kathrin Smetana, et. al.Kathrin Smetana ... Olivier Zahm
18 Mar 2020
Modeling soft, permeable matter with the proper generalized decomposition (PGD) approach, and verification by means of nanoindentation.
Chady Ghnatios ... Nicholas D Spencer
Soft matter | VOL. 13
Chady Ghnatios, et. al.Chady Ghnatios ... Nicholas D Spencer
01 Jan 2017
Efficient estimation of cardiac conductivities: A proper generalized decomposition approach
Alessandro Barone ... Alessandro Veneziani
Journal of Computational Physics | VOL. 423
Alessandro Barone, et. al.Alessandro Barone ... Alessandro Veneziani
02 Sep 2020
View more papers

More From: Computer Methods in Applied Mechanics and Engineering

Paper Title
Journal
Date
Author
A point mapping strategy-based sparse grid integration method for statistical moments estimation and structural reliability analysis
Tao Wang ... Zhengliang Li
Computer Methods in Applied Mechanics and Engineering | VOL. 430
Tao Wang, et. al.Tao Wang ... Zhengliang Li
26 Jul 2024
Embedment of WENO-Z reconstruction in Lagrangian WLS scheme implemented on GPU for strongly-compressible multi-phase flows
Tao Jiang ... Deng-Shan Wang
Computer Methods in Applied Mechanics and Engineering | VOL. 430
Tao Jiang, et. al.Tao Jiang ... Deng-Shan Wang
24 Jul 2024
A generative machine learning model for the 3D reconstruction of material microstructure and performance evaluation
Yilin Zheng ... Zhigong Song
Computer Methods in Applied Mechanics and Engineering | VOL. 430
Yilin Zheng, et. al.Yilin Zheng ... Zhigong Song
24 Jul 2024
SECRET: Statistical Emulation for Computational Reverse Engineering and Translation with applications in healthcare
L Mihaela Paun ... Dirk Husmeier
Computer Methods in Applied Mechanics and Engineering | VOL. 430
L Mihaela Paun, et. al.L Mihaela Paun ... Dirk Husmeier
15 Jul 2024
View more papers