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A surrogate model for computational homogenization of elastostatics at finite strain using high-dimensional model representation-based neural network

V. Nguyen-Thanh, L. Nguyen, T. Rabczuk, and X. Zhuang. International Journal for Numerical Methods in Engineering, 121 (21): 4811-4842 (2020)
DOI: 10.1002/nme.6493

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An extended polygonal finite element method for large deformation fracture analysis.H. Huynh, P. Tran, X. Zhuang, and H. Nguyen-Xuan. CoRR, (2019)Three-dimensional topology optimization of auxetic metamaterial using isogeometric analysis and model order reduction.C. Nguyen, X. Zhuang, L. Chamoin, H. Nguyen-Xuan, X. Zhao, and T. Rabczuk. CoRR, (2019)A softening-healing law for self-healing quasi-brittle materials: analyzing with Strong Discontinuity embedded Approach.Y. Zhang, and X. Zhuang. CoRR, (2017)A meshfree formulation for large deformation analysis of flexoelectric structures accounting for the surface effects.X. Zhuang, S. Nanthakumar, and T. Rabczuk. CoRR, (2019)Exploring phononic properties of two-dimensional materials using machine learning interatomic potentialsB. Mortazavi, I. Novikov, E. Podryabinkin, S. Roche, T. Rabczuk, A. Shapeev, and X. Zhuang. Applied materials today, 20 (September): 100685 (2020)Accelerating first-principles estimation of thermal conductivity by machine-learning interatomic potentials : A MTP/ShengBTE solutionB. Mortazavi, E. Podryabinkin, I. Novikov, T. Rabczuk, X. Zhuang, and A. Shapeev. Computer physics communications, (2020)A Phantom-Node Method with Edge-Based Strain Smoothing for Linear Elastic Fracture Mechanics.N. Vu-Bac, H. Nguyen-Xuan, L. Chen, C. Lee, G. Zi, X. Zhuang, G. Liu, and T. Rabczuk. J. Applied Mathematics, (2013)A surrogate model for computational homogenization of elastostatics at finite strain using the HDMR-based neural network approximator.V. Nguyen-Thanh, L. Nguyen, T. Rabczuk, and X. Zhuang. CoRR, (2019)A Virtual Element Method for 2D linear elastic fracture analysis.V. Nguyen-Thanh, X. Zhuang, H. Nguyen-Xuan, T. Rabczuk, and P. Wriggers. CoRR, (2018)An Energy Approach to the Solution of Partial Differential Equations in Computational Mechanics via Machine Learning: Concepts, Implementation and Applications.E. Samaniego, C. Anitescu, S. Goswami, V. Nguyen-Thanh, H. Guo, K. Hamdia, T. Rabczuk, and X. Zhuang. CoRR, (2019)

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copydeleteadd this publication to your clipboardcommunity posthistory of this postURLDOIBibTeXEndNoteAPAChicagoDIN 1505HarvardMSOffice XML A surrogate model for computational homogenization of elastostatics at finite strain using high-dimensional model representation-based neural network

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