A damage-related adaptive self-consistent clustering analysis method with localized refinement capability for the damage problem of 3D woven composites
S Wu, L Guo, Z Li, J Ding, Y Zhuo - Composites Science and Technology, 2024 - Elsevier
In this work, a Damage-related Adaptive Self-Consistent Clustering Analysis (DASCA)
method is developed to achieve higher solving accuracy for 3D damage problems than Self …
method is developed to achieve higher solving accuracy for 3D damage problems than Self …
[HTML][HTML] FFT-based multiscale scheme for homogenisation of heterogeneous plates including damage and failure
This paper introduces a new approach that combines FFT-based multiscale homogenisation
with the Lippman–Schwinger equation to efficiently and accurately analyse plate structures …
with the Lippman–Schwinger equation to efficiently and accurately analyse plate structures …
A highly efficient self-consistent clustering analysis method with field refinement capability for the mesoscale damage behavior of 3D woven composites
S Wu, L Guo, Z Li, T Zheng, J Huang, X Han… - … Science and Technology, 2024 - Elsevier
To effectively balance the accuracy and efficiency in solving high-dimensional damage
problems, a self-consistent clustering analysis framework with field refinement capability …
problems, a self-consistent clustering analysis framework with field refinement capability …
Micrometer: Micromechanics Transformer for Predicting Mechanical Responses of Heterogeneous Materials
Heterogeneous materials, crucial in various engineering applications, exhibit complex
multiscale behavior, which challenges the effectiveness of traditional computational …
multiscale behavior, which challenges the effectiveness of traditional computational …
Artificial neural network-based homogenization model for predicting multiscale thermo-mechanical properties of woven composites
M Li, B Wang, J Hu, G Li, P Ding, C Ji - International Journal of Solids and …, 2024 - Elsevier
In this study, we propose an efficient homogenization model based on the fast Fourier
transform (FFT) method and artificial neural network (ANN) models to predict the multiscale …
transform (FFT) method and artificial neural network (ANN) models to predict the multiscale …
Virtual clustering analysis for phase field model of quasi-static brittle fracture
S Tang, J Miao - Computational Mechanics, 2024 - Springer
In this paper, we develop a Virtual Clustering Analysis method for a phase field model of
brittle fracture. In addition to the strain/stress field, we treat the phase field variable via …
brittle fracture. In addition to the strain/stress field, we treat the phase field variable via …
[HTML][HTML] Strain concentration factor of heterogeneous materials and analytical influence functions based on Eshelby tensor
S Huang, Z Yuan - Theoretical and Applied Mechanics Letters, 2024 - Elsevier
In this manuscript, Eshelby tensor is employed to assess the strain concentration that arises
in the matrix phase at the interface, offering precise values and locations of maximum strain …
in the matrix phase at the interface, offering precise values and locations of maximum strain …
[PDF][PDF] Development of a Three-Dimensional Multiscale Octree SBFEM for Viscoelastic Problems of Heterogeneous Materials
X Xu, X Wang, H Yang, Z Yang… - … -Computer Modeling in …, 2024 - cdn.techscience.cn
The multiscale method provides an effective approach for the numerical analysis of
heterogeneous viscoelastic materials by reducing the degree of freedoms (DOFs). A basic …
heterogeneous viscoelastic materials by reducing the degree of freedoms (DOFs). A basic …
[HTML][HTML] Multiscale modelling of damage in ductile heterogeneous materials
A Jurčević - 2024 - repozitorij.fsb.unizg.hr
Sažetak In modern times, the use of advanced manufacturing techniques such as 3D
printing or sintering allows for the creation of specific heterogeneous structures at the nano …
printing or sintering allows for the creation of specific heterogeneous structures at the nano …