Multi phase-field modeling of anisotropic crack propagation in 3D fiber-reinforced composites based on an adaptive isogeometric meshfree collocation method
An anisotropic multi phase-field model is developed in this paper to investigate the interaction between the crack propagation and interfacial damage in a fiber-reinforced composite. The proposed modeling approach can capture the fracture patterns of composite microstructures through the introductio...
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sg-ntu-dr.10356-1618292022-09-21T02:44:26Z Multi phase-field modeling of anisotropic crack propagation in 3D fiber-reinforced composites based on an adaptive isogeometric meshfree collocation method Nguyen-Thanh, Nhon Li, Weidong Huang, Jiazhao Zhou, Kun School of Electrical and Electronic Engineering School of Mechanical and Aerospace Engineering SMRT-NTU Smart Urban Rail Corporate Laboratory Engineering::Mechanical engineering Fiber-Reinforced Composites Anisotropic An anisotropic multi phase-field model is developed in this paper to investigate the interaction between the crack propagation and interfacial damage in a fiber-reinforced composite. The proposed modeling approach can capture the fracture patterns of composite microstructures through the introduction of the crack phase field and the interface phase field. By considering the free energy related to the interface and crack phase fields, the interfacial debonding, matrix cracking and the interaction of two fracture patterns can thus be simulated. The anisotropic phase-field approach is further adopted to describe the interface interaction associated with a crack. The phase-field equations are solved using the isogeometric-meshfree collocation approach to achieve high computational efficiency. An adaptive h-refinement scheme is incorporated into the phase-field formulations using phase-field variables and their gradients as the error indicators. The proposed method is shown to be effective and robust in both case studies of 2D and 3D fiber-reinforced composite microstructures. Moreover, fracture behaviors including the crack initiation, propagation, coalescence, interfacial debonding, and matrix cracking in composite microstructures are found to be precisely modeled by the proposed approach. Nanyang Technological University National Research Foundation (NRF) The authors acknowledge the financial support from the SMRT-NTU Smart Urban Rail Corporate Laboratory with funding support from the National Research Foundation, SMRT and Nanyang Technological University (Grant No. M4061892). 2022-09-21T02:44:26Z 2022-09-21T02:44:26Z 2022 Journal Article Nguyen-Thanh, N., Li, W., Huang, J. & Zhou, K. (2022). Multi phase-field modeling of anisotropic crack propagation in 3D fiber-reinforced composites based on an adaptive isogeometric meshfree collocation method. Computer Methods in Applied Mechanics and Engineering, 393, 114794-. https://dx.doi.org/10.1016/j.cma.2022.114794 0045-7825 https://hdl.handle.net/10356/161829 10.1016/j.cma.2022.114794 2-s2.0-85126360127 393 114794 en M4061892 Computer Methods in Applied Mechanics and Engineering © 2022 Elsevier B.V. All rights reserved. |
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Engineering::Mechanical engineering Fiber-Reinforced Composites Anisotropic Nguyen-Thanh, Nhon Li, Weidong Huang, Jiazhao Zhou, Kun Multi phase-field modeling of anisotropic crack propagation in 3D fiber-reinforced composites based on an adaptive isogeometric meshfree collocation method |
| description |
An anisotropic multi phase-field model is developed in this paper to investigate the interaction between the crack propagation and interfacial damage in a fiber-reinforced composite. The proposed modeling approach can capture the fracture patterns of composite microstructures through the introduction of the crack phase field and the interface phase field. By considering the free energy related to the interface and crack phase fields, the interfacial debonding, matrix cracking and the interaction of two fracture patterns can thus be simulated. The anisotropic phase-field approach is further adopted to describe the interface interaction associated with a crack. The phase-field equations are solved using the isogeometric-meshfree collocation approach to achieve high computational efficiency. An adaptive h-refinement scheme is incorporated into the phase-field formulations using phase-field variables and their gradients as the error indicators. The proposed method is shown to be effective and robust in both case studies of 2D and 3D fiber-reinforced composite microstructures. Moreover, fracture behaviors including the crack initiation, propagation, coalescence, interfacial debonding, and matrix cracking in composite microstructures are found to be precisely modeled by the proposed approach. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Nguyen-Thanh, Nhon Li, Weidong Huang, Jiazhao Zhou, Kun |
| format |
Article |
| author |
Nguyen-Thanh, Nhon Li, Weidong Huang, Jiazhao Zhou, Kun |
| author_sort |
Nguyen-Thanh, Nhon |
| title |
Multi phase-field modeling of anisotropic crack propagation in 3D fiber-reinforced composites based on an adaptive isogeometric meshfree collocation method |
| title_short |
Multi phase-field modeling of anisotropic crack propagation in 3D fiber-reinforced composites based on an adaptive isogeometric meshfree collocation method |
| title_full |
Multi phase-field modeling of anisotropic crack propagation in 3D fiber-reinforced composites based on an adaptive isogeometric meshfree collocation method |
| title_fullStr |
Multi phase-field modeling of anisotropic crack propagation in 3D fiber-reinforced composites based on an adaptive isogeometric meshfree collocation method |
| title_full_unstemmed |
Multi phase-field modeling of anisotropic crack propagation in 3D fiber-reinforced composites based on an adaptive isogeometric meshfree collocation method |
| title_sort |
multi phase-field modeling of anisotropic crack propagation in 3d fiber-reinforced composites based on an adaptive isogeometric meshfree collocation method |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161829 |
| _version_ |
1745574650798145536 |