A Review on Data-Driven Constitutive Laws for Solids

Jan N. Fuhg; Govinda Anantha Padmanabha; Nikolaos Bouklas; Bahador Bahmani; Wai Ching Sun; Nikolaos N. Vlassis; Moritz Flaschel; Pietro Carrara; Laura De Lorenzis

doi:10.1007/s11831-024-10196-2

A Review on Data-Driven Constitutive Laws for Solids

Jan N. Fuhg, Govinda Anantha Padmanabha, Nikolaos Bouklas, Bahador Bahmani, Wai Ching Sun, Nikolaos N. Vlassis, Moritz Flaschel, Pietro Carrara, Laura De Lorenzis

School of Engineering, Mechanical & Aerospace Engineering

Research output: Contribution to journal › Review article › peer-review

8 Scopus citations

Abstract

This review article highlights state-of-the-art data-driven techniques to discover, encode, surrogate, or emulate constitutive laws that describe the path-independent and path-dependent response of solids. Our objective is to provide an organized taxonomy to a large spectrum of methodologies developed in the past decades and to discuss the benefits and drawbacks of the various techniques for interpreting and forecasting mechanics behavior across different scales. Distinguishing between machine-learning-based and model-free methods, we further categorize approaches based on their interpretability and on their learning process/type of required data, while discussing the key problems of generalization and trustworthiness. We attempt to provide a road map of how these can be reconciled in a data-availability-aware context. We also touch upon relevant aspects such as data sampling techniques, design of experiment, verification, and validation.

Original language	English (US)
Article number	112658
Pages (from-to)	1841-1883
Number of pages	43
Journal	Archives of Computational Methods in Engineering
Volume	32
Issue number	3
DOIs	https://doi.org/10.1007/s11831-024-10196-2
State	Published - Apr 2025

All Science Journal Classification (ASJC) codes

Computer Science Applications
Applied Mathematics

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title = "A Review on Data-Driven Constitutive Laws for Solids",

abstract = "This review article highlights state-of-the-art data-driven techniques to discover, encode, surrogate, or emulate constitutive laws that describe the path-independent and path-dependent response of solids. Our objective is to provide an organized taxonomy to a large spectrum of methodologies developed in the past decades and to discuss the benefits and drawbacks of the various techniques for interpreting and forecasting mechanics behavior across different scales. Distinguishing between machine-learning-based and model-free methods, we further categorize approaches based on their interpretability and on their learning process/type of required data, while discussing the key problems of generalization and trustworthiness. We attempt to provide a road map of how these can be reconciled in a data-availability-aware context. We also touch upon relevant aspects such as data sampling techniques, design of experiment, verification, and validation.",

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AU - Anantha Padmanabha, Govinda

AU - Bouklas, Nikolaos

AU - Bahmani, Bahador

AU - Sun, Wai Ching

AU - Vlassis, Nikolaos N.

AU - Flaschel, Moritz

AU - Carrara, Pietro

AU - De Lorenzis, Laura

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PY - 2025/4

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A Review on Data-Driven Constitutive Laws for Solids

Abstract

All Science Journal Classification (ASJC) codes

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