Constitutive Model

Constitutive modeling aims to mathematically describe the relationship between a material's stress and strain, enabling accurate prediction of its mechanical behavior under various conditions. Current research heavily utilizes machine learning, particularly neural networks (including physics-informed, recurrent, and graph convolutional architectures), to learn these relationships from experimental data or high-fidelity simulations, often bypassing the need for explicitly defined constitutive equations. This approach offers improved accuracy and efficiency for complex materials and scenarios, impacting fields like material science, structural engineering, and biomechanics through more precise simulations and faster material characterization.

Papers

April 27, 2023

Learning Neural Constitutive Laws From Motion Observations for Generalizable PDE Dynamics
Pingchuan Ma, Peter Yichen Chen, Bolei Deng, Joshua B. Tenenbaum, Tao Du, Chuang Gan, Wojciech Matusik
Constitutive Model Prior Model Constitutive Law Generalizable PDE

December 15, 2022

Physics-Informed Neural Networks for Material Model Calibration from Full-Field Displacement Data
David Anton, Henning Wessels
Neural Network Physic Informed Neural Network Finite Element Constitutive Model Material Modeling Displacement Field

November 24, 2022

The GA-cal software for the automatic calibration of soil constitutive laws: a tutorial and a user manual
Francisco J. Mendez, Miguel A. Mendez, Antonio Pasculli
Genetic Algorithm Constitutive Model Self Calibration User Manual Soil Temperature Constitutive Law

October 15, 2022

Modular machine learning-based elastoplasticity: generalization in the context of limited data
Jan N. Fuhg, Craig M. Hamel, Kyle Johnson, Reese Jones, Nikolaos Bouklas
Strong Generalization Context Information Limited Data Finite Element Constitutive Model Solid Mechanic Synthetic Image Data Real World Material Discovery

September 27, 2022

Evolution TANN and the identification of internal variables and evolution equations in solid mechanics
Filippo Masi, Ioannis Stefanou
Person Identification Variable Model Constitutive Model Solid Mechanic Incremental Model Macroscopic Model

September 15, 2022

A new family of Constitutive Artificial Neural Networks towards automated model discovery
Kevin Linka, Ellen Kuhl
Constitutive Model Model Discovery New Family

September 3, 2022

Deep autoencoders for physics-constrained data-driven nonlinear materials modeling
Xiaolong He, Qizhi He, Jiun-Shyan Chen
Data Driven Constitutive Model Material Project Learning Based Solver Material Data Deep Autoencoders Nonlinear Material

June 16, 2022

Automated analysis of continuum fields from atomistic simulations using statistical machine learning
Aruna Prakash, Stefan Sandfeld
General Analysis Statistical Learning Atomistic Simulation Constitutive Model Strain Energy Local Plasticity

May 4, 2022

NN-EUCLID: deep-learning hyperelasticity without stress data
Prakash Thakolkaran, Akshay Joshi, Yiwen Zheng, Moritz Flaschel, Laura De Lorenzis, Siddhant Kumar
Constitutive Model Hyperelastic Material Stress Datasets Constitutive Law

April 26, 2022

A physics-informed deep neural network for surrogate modeling in classical elasto-plasticity
Mahdad Eghbalian, Mehdi Pouragha, Richard Wan
Neural Network Surrogate Modeling Constitutive Model Strain Generation Physic Guided Deep Learning

April 1, 2022

A Physics-Guided Neural Operator Learning Approach to Model Biological Tissues from Digital Image Correlation Measurements
Huaiqian You, Quinn Zhang, Colton J. Ross, Chung-Hao Lee, Ming-Chen Hsu, Yue Yu
Constitutive Model Tissue Context Digital Image Correlation Physic Informed Operator Learning

March 30, 2022

Calibrating constitutive models with full-field data via physics informed neural networks
Craig M. Hamel, Kevin N. Long, Sharlotte L. B. Kramer
Neural Network Theoretical Physic Physic Informed Deep Learning Constitutive Model Field Data Hyperelastic Material

March 18, 2022

Constitutive model characterization and discovery using physics-informed deep learning
Ehsan Haghighat, Sahar Abouali, Reza Vaziri
Data Driven Scientific Discovery Physic Informed Deep Learning Constitutive Model

March 15, 2022

Learning Deep Implicit Fourier Neural Operators (IFNOs) with Applications to Heterogeneous Material Modeling
Huaiqian You, Quinn Zhang, Colton J. Ross, Chung-Hao Lee, Yue Yu
Financial Application Fourier Neural Operator Constitutive Model Material Modeling Heterogeneous Material

February 21, 2022

Stochastic Modeling of Inhomogeneities in the Aortic Wall and Uncertainty Quantification using a Bayesian Encoder-Decoder Surrogate
Sascha Ranftl, Malte Rolf-Pissarczyk, Gloria Wolkerstorfer, Antonio Pepe, Jan Egger, Wolfgang von der Linden, Gerhard A. Holzapfel
Uncertainty Quantification Constitutive Model Stochastic Model Stress Distribution

February 18, 2022

Model Calibration of the Liquid Mercury Spallation Target using Evolutionary Neural Networks and Sparse Polynomial Expansions
Majdi I. Radaideh, Hoang Tran, Lianshan Lin, Hao Jiang, Drew Winder, Sarma Gorti, Guannan Zhang, Justin Mach, Sarah Cousineau
Neural Network Model Calibration Constitutive Model Target Spacecraft Sparse Polynomial Cavitation Intensity Recognition

February 8, 2022

When Kinematics Dominates Mechanics: Locally Volume-Preserving Primitives for Model Reduction in Finite Elasticity
Xu Yi, Gregory S. Chirikjian
Soft Robot Soft Robotics Model Reduction Constitutive Model Kinematic Theory Nonlinear Elasticity Volumetric Primitive

February 2, 2022

Surrogate Modeling for Physical Systems with Preserved Properties and Adjustable Tradeoffs
Randi Wang, Morad Behandish
Surrogate Model Surrogate Modeling Physical System Model Reduction Physical Simulation Constitutive Model Physical Model

December 18, 2021

Manifold embedding data-driven mechanics
Bahador Bahmani, WaiChing Sun
Data Driven Invertible Neural Network Dimensional Manifold Constitutive Model Physic Based Simulation Material Data

Constitutive Model

Papers

Learning Neural Constitutive Laws From Motion Observations for Generalizable PDE Dynamics

Physics-Informed Neural Networks for Material Model Calibration from Full-Field Displacement Data

The GA-cal software for the automatic calibration of soil constitutive laws: a tutorial and a user manual

Modular machine learning-based elastoplasticity: generalization in the context of limited data

Evolution TANN and the identification of internal variables and evolution equations in solid mechanics

A new family of Constitutive Artificial Neural Networks towards automated model discovery

Deep autoencoders for physics-constrained data-driven nonlinear materials modeling

Automated analysis of continuum fields from atomistic simulations using statistical machine learning

NN-EUCLID: deep-learning hyperelasticity without stress data

A physics-informed deep neural network for surrogate modeling in classical elasto-plasticity

A Physics-Guided Neural Operator Learning Approach to Model Biological Tissues from Digital Image Correlation Measurements

Calibrating constitutive models with full-field data via physics informed neural networks

Constitutive model characterization and discovery using physics-informed deep learning

Learning Deep Implicit Fourier Neural Operators (IFNOs) with Applications to Heterogeneous Material Modeling

Stochastic Modeling of Inhomogeneities in the Aortic Wall and Uncertainty Quantification using a Bayesian Encoder-Decoder Surrogate

Model Calibration of the Liquid Mercury Spallation Target using Evolutionary Neural Networks and Sparse Polynomial Expansions

When Kinematics Dominates Mechanics: Locally Volume-Preserving Primitives for Model Reduction in Finite Elasticity

Surrogate Modeling for Physical Systems with Preserved Properties and Adjustable Tradeoffs

Manifold embedding data-driven mechanics