Exploring energy minimization to model strain localization as a strong discontinuity using Physics Informed Neural Networks

Leon Iñiguez, Omar Fernando; Rivera Minchala, Victor Emilio; Samaniego Alvarado, Esteban Patricio; Vazquez Patino, Angel Oswaldo

Please use this identifier to cite or link to this item: https://dspace.ucuenca.edu.ec/handle/123456789/45932

Title:	Exploring energy minimization to model strain localization as a strong discontinuity using Physics Informed Neural Networks
Authors:	Leon Iñiguez, Omar Fernando Rivera Minchala, Victor Emilio Samaniego Alvarado, Esteban Patricio Vazquez Patino, Angel Oswaldo
Keywords:	Plasticity Energy minimization Variational methods Physics informed neural networks Strong discontinuities Strain localization
metadata.dc.ucuenca.areaconocimientofrascatiamplio:	2. Ingeniería y Tecnología
metadata.dc.ucuenca.areaconocimientofrascatidetallado:	2.2.4 Ingeniería de La Comunicación y de Sistemas
metadata.dc.ucuenca.areaconocimientofrascatiespecifico:	2.2 Ingenierias Eléctrica, Electrónica e Información
metadata.dc.ucuenca.areaconocimientounescoamplio:	06 - Información y Comunicación (TIC)
metadata.dc.ucuenca.areaconocimientounescodetallado:	0612 - Base de Datos, Diseno y Administración de Redes
metadata.dc.ucuenca.areaconocimientounescoespecifico:	061 - Información y Comunicación (TIC)
Issue Date:	2025
metadata.dc.ucuenca.volumen:	Volumen 436
metadata.dc.source:	Computer Methods in Applied Mechanics and Engineering
metadata.dc.identifier.doi:	10.1016/j.cma.2024.117724
metadata.dc.type:	ARTÍCULO
Abstract:	We explore the possibilities of using energy minimization for the numerical modeling of strain localization in solids as a sharp discontinuity in the displacement field. For this purpose, we consider (regularized) strong discontinuity kinematics in elastoplastic solids. The corresponding mathematical model is discretized using Artificial Neural Networks (ANNs), aiming to predict both the magnitude and location of the displacement jump from energy minimization, i.e., within a variational setting. The architecture takes care of the kinematics, while the loss function takes care of the variational statement of the boundary value problem. The main idea behind this approach is to solve both the equilibrium problem and the location of the localization band by means of trainable parameters in the ANN. As a proof of concept, we show through both 1D and 2D numerical examples that the computational modeling of strain localization for elastoplastic solids using energy minimization is feasible
URI:	https://dspace.ucuenca.edu.ec/handle/123456789/45932 https://www.scopus.com/record/display.uri?eid=2-s2.0-85214531212&doi=10.1016%2fj.cma.2024.117724&origin=inward&txGid=3322cad3d30ac3a50ea0ceb7edc2397f
metadata.dc.ucuenca.urifuente:	https://www.sciencedirect.com/science/article/pii/S0045782524009800
ISSN:	00457825
Appears in Collections:	Artículos

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