Publikationen des CSST

  • 2021


    • B. Mortazavi, M. Silani, E.V. Podryabinkin, T. Rabczuk, X. Zhuang , A.V. Shapeev. First-Principles Multiscale Modeling of Mechanical Properties in Graphene/Borophene Heterostructures Empowered by Machine-Learning Interatomic Potentials, Advanced Materials, 33:2102807, 2021.
    • F. Kolodziejczyk, B. Mortazavi, T. Rabczuk, X. Zhuang. Machine learning assisted multiscale modeling of composite phase change materials for Li-ion batteries’ thermal management. International Journal of Heat and Mass Transfer 172, 121199, 2021.
    • Y. Zhang, X. Yang, X. Wang, X. Zhuang. A micropolar peridynamic model with non-uniform horizon for static damage of solids considering different nonlocal enhancements. Theoretical and Applied Fracture Mechanics 113, 102930, 2021.
    • H. Ren, X. Zhuang, N.T. Trung, T. Rabczuk. Nonlocal operator method for the Cahn-Hilliard phase field model. Communications in Nonlinear Science and Numerical Simulation 96, 105687, 2021.
    • X. Zhuang, H. Guo, N. Alajlan, H. Zhu, T. Rabczuk. Deep autoencoder based energy method for the bending, vibration, and buckling analysis of Kirchhoff plates with transfer learning. European Journal of Mechanics-A/Solids 87, 104225, 2021.
    • T.Q. Thai, X. Zhuang, T. Rabczuk. A nonlinear geometric couple stress based strain gradient Kirchhoff–Love shell formulation for microscale thin-wall structures. International Journal of Mechanical Sciences 196, 106272, 2021.
    • P. Zhang, W. Yao, X. Hu, X. Zhuang. Phase field modelling of progressive failure in composites combined with cohesive element with an explicit scheme. Composite Structures 262, 113353, 2021.
    • B. Mortazavi, F. Shojaei, X. Zhuang, L.F.C. Pereira. First-principles investigation of electronic, optical, mechanical and heat transport properties of pentadiamond: A comparison with diamond. Carbon Trends 3, 100036, 2021.
    • B. Mortazavi, B. Javvaji, F. Shojaei, T. Rabczuk, A.V. Shapeev, X. Zhuang*. Exceptional piezoelectricity, high thermal conductivity and stiffness and promising photocatalysis in two-dimensional Mo-Si2N4 family confirmed by first-principles. Nano Energy 82, 105716, 2021.
    • R. Cai, Y. Jin, T. Rabczuk, X. Zhuang, B. Djafari-Rouhani. Propagation and attenuation of Rayleigh and pseudo surface waves in viscoelastic metamaterials. Journal of Applied Physics 129 (12), 124903, 2021.
    • S. Zhou, X. Zhuang, J. Zhou, F. Liu. Phase Field Characterization of Rock Fractures in Brazilian Splitting Test Specimens Containing Voids and Inclusions. International Journal of Geomechanics 21 (3), 04021006, 2021.
    • F. Zheng, X. Zhuang*, H. Zheng, Y.Y. Jiao, T. Rabczuk. A robust potential-based contact force solution approach for discontinuous deformation analysis of irregular convex polygonal block/particle systems. Acta Geotechnica 16 (3), 679-697, 2021.
    • K.M. Hamdia, X. Zhuang*, T. Rabczuk. An efficient optimization approach for designing machine learning models based on genetic algorithm. Neural Computing and Applications 33 (6), 1923-1933, 2021.
    • H. Ren, X. Zhuang, E. Oterkus, H.H. Zhu, T. Rabczuk. Nonlocal strong forms of thin plate, gradient elasticity, magneto-electro-elasticity and phase field fracture by nonlocal operator method. arXiv preprint arXiv:2103.08696, 2021.
    • H. Guo, X. Zhuang, T. Rabczuk. A deep collocation method for the bending analysis of Kirchhoff plate. arXiv preprint arXiv:2102.02617, 2021.
    • H. Ren, X. Zhuang, N.T. Trung, T. Rabczuk. A nonlocal operator method for finite deformation higher-order gradient elasticity. hal preprint: hal-03127040, 2021.
    • L. He, Z. Wen, Y. Jin, D. Torrent, X. Zhuang, T. Rabczuk. Inverse design of topological metaplates for flexural waves with machine learning. Materials & Design 199, 109390, 2021.
    • X. Zhuang, F. Zheng, H. Zheng, Y.Y. Jiao, T. Rabczuk, P. Wriggers. A cover-based contact detection approach for irregular convex polygons in discontinuous deformation analysis. International Journal for Numerical and Analytical Methods in Geomechanics, 2021.
    • B. Mortazavi, F. Shojaei, X. Zhuang, L.F.C. Pereira. First-principles investigation of electronic, optical, mechanical and heat transport properties of pentadiamond: A comparison with diamond”. Carbon Trends 3 100036, 2021.
    • X. Zhuang, H. Nguyen-Xuan, S. Zhou. The Interaction between Microcapsules with Different Sizes and Propagating Cracks. CMC-COMPUTERS MATERIALS & CONTINUA 67 (1), 577-593, 2021.
    • T.Q. Thai, X. Zhuang, H.S. Park, T. Rabczuk. A staggered explicit-implicit isogeometric formulation for large deformation flexoelectricity. Engineering Analysis with Boundary Elements 122, 1-12, 2021.
    • B. Mortazavi, E.V. Podryabinkin, I.S. Novikov, T. Rabczuk, X. Zhuang*, A.V. Shapeev. Accelerating first-principles estimation of thermal conductivity by machine-learning interatomic potentials: A MTP/ShengBTE solution. Computer Physics Communications 258, 107583, 2021.
    • R. Brighenti, T. Rabczuk, X. Zhuang. Phase field approach for simulating failure of viscoelastic elastomers. European Journal of Mechanics-A/Solids 85, 104092, 2021.
  • 2020


    • Ghasemi, H., Park, H. S., Zhuang, X., & Rabczuk, T. (2020). Three-Dimensional Isogeometric Analysis of Flexoelectricity with MATLAB Implementation. CMC-COMPUTERS MATERIALS & CONTINUA, 65(2), 1157-1179.
    • Zhuang, X., Nanthakumar, S. S., & Rabczuk, T. (2020). A meshfree formulation for large deformation analysis of flexoelectric structures accounting for the surface effects. Engineering Analysis with Boundary Elements, 120, 153-165.
    • Zhuang, X., Nguyen, B. H., Nanthakumar, S. S., Tran, T. Q., Alajlan, N., & Rabczuk, T. (2020). Computational Modeling of Flexoelectricity—A Review. Energies, 13(6), 1326.
  • 2019


    • Do, H. V., Lahmer, T., Zhuang, X., Alajlan, N., Nguyen-Xuan, H., & Rabczuk, T. (2019). An isogeometric analysis to identify the full flexoelectric complex material properties based on electrical impedance curve. Computers & Structures, 214, 1-14.
    • Hamdia, K. M., Ghasemi, H., Zhuang, X., Alajlan, N., & Rabczuk, T. (2019). Computational machine learning representation for the flexoelectricity effect in truncated pyramid structures. Computers, Materials & Continua 59 (2019), Nr. 1.
    • He, B., Javvaji, B., & Zhuang, X. (2019). Characterizing flexoelectricity in composite material using the element-free Galerkin method. Energies, 12(2), 271.
    • Javvaji, B., He, B., Zhuang, X., & Park, H. S. (2019). High flexoelectric constants in Janus transition-metal dichalcogenides. Physical Review Materials, 3(12), 125402.
    • Zhuang, X., He, B., Javvaji, B., & Park, H. S. (2019). Intrinsic bending flexoelectric constants in two-dimensional materials. Physical Review B, 99(5), 054105.
  • 2018


    • Hamdia, K. M., Ghasemi, H., Zhuang, X., Alajlan, N., & Rabczuk, T. (2018). Sensitivity and uncertainty analysis for flexoelectric nanostructures. Computer Methods in Applied Mechanics and Engineering, 337, 95-109.
    • He, B., Javvaji, B., & Zhuang, X. (2018). Size dependent flexoelectric and mechanical properties of barium titanate nanobelt: A molecular dynamics study. Physica B: Condensed Matter, 545, 527-535.
    • Javvaji, B., He, B., & Zhuang, X. (2018). The generation of piezoelectricity and flexoelectricity in graphene by breaking the materials symmetries. Nanotechnology, 29(22), 225702.
    • Nguyen, B. H., Nanthakumar, S. S., Zhuang, X., Wriggers, P., Jiang, X., & Rabczuk, T. (2018). Dynamic flexoelectric effect on piezoelectric nanostructures. European Journal of Mechanics-A/Solids, 71, 404-409.
    • Nguyen, B. H., Zhuang, X., & Rabczuk, T. (2018). Numerical model for the characterization of Maxwell-Wagner relaxation in piezoelectric and flexoelectric composite material. Computers & Structures, 208, 75-91.
    • Thai, T. Q., Rabczuk, T., & Zhuang, X. (2018). A large deformation isogeometric approach for flexoelectricity and soft materials. Computer Methods in Applied Mechanics and Engineering, 341, 718-739.