Multi-scale reduced-order model of composite microstructure based on X-ray micro-CT imaging - 14e colloque national en calcul des structures CSMA 2019
Communication Dans Un Congrès Année : 2019

Multi-scale reduced-order model of composite microstructure based on X-ray micro-CT imaging

Anna Madra
  • Fonction : Auteur
  • PersonId : 1038188
Kangning Su
  • Fonction : Auteur
  • PersonId : 1475153
Jing Du
  • Fonction : Auteur
  • PersonId : 1475154
Michael Hillman
  • Fonction : Auteur
  • PersonId : 1475134

Résumé

In the process of Data-Driven modeling of the material microstructures, a reduced-order representation is preferred, as it is more manageable from the numerical standpoint. Its main drawback though is the loss of the connection between the parameters of the reduced-order model and the physical properties of the microstructure. We propose a methodology for exploring the intrinsic dimensionality of the multi-scale shape-manifold models of a heterogeneous material and point-out how the representativity of both geometric and spatial features changes depending on snapshot selection. The process is illustrated for an X-ray micro-CT scan of a polymer-ceramic composite microstructure.In the process of Data-Driven modeling of the material microstructures, a reduced-order representation is preferred, as it is more manageable from the numerical standpoint. Its main drawback though is the loss of the connection between the parameters of the reduced-order model and the physical properties of the microstructure. We propose a methodology for exploring the intrinsic dimensionality of the multi-scale shape-manifold models of a heterogeneous material and point-out how the representativity of both geometric and spatial features changes depending on snapshot selection. The process is illustrated for an X-ray micro-CT scan of a polymer-ceramic composite microstructure.In the process of Data-Driven modeling of the material microstructures, a reduced-order representation is preferred, as it is more manageable from the numerical standpoint. Its main drawback though is the loss of the connection between the parameters of the reduced-order model and the physical properties of the microstructure. We propose a methodology for exploring the intrinsic dimensionality of the multi-scale shape-manifold models of a heterogeneous material and point-out how the representativity of both geometric and spatial features changes depending on snapshot selection. The process is illustrated for an X-ray micro-CT scan of a polymer-ceramic composite microstructure.In the process of Data-Driven modeling of the material microstructures, a reduced-order representation is preferred, as it is more manageable from the numerical standpoint. Its main drawback though is the loss of the connection between the parameters of the reduced-order model and the physical properties of the microstructure. We propose a methodology for exploring the intrinsic dimensionality of the multi-scale shape-manifold models of a heterogeneous material and point-out how the representativity of both geometric and spatial features changes depending on snapshot selection. The process is illustrated for an X-ray micro-CT scan of a polymer-ceramic composite microstructure.
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Dates et versions

hal-04824570 , version 1 (07-12-2024)

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  • HAL Id : hal-04824570 , version 1

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Anna Madra, Kangning Su, Jing Du, Michael Hillman. Multi-scale reduced-order model of composite microstructure based on X-ray micro-CT imaging. 14ème Colloque National en Calcul de Structures (CSMA 2019), CSMA, LEM3, MSME, Université de Lorraine, Arts et Métiers, CNRS, May 2019, Hyères, France. ⟨hal-04824570⟩
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