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10篇代表性论文:
Ge, Y.P., He, Z.G., Li, S.F.,Zhang, L.*, Shi, L.T., 2023. A machine learning-based probabilistic computational framework for uncertainty quantification of actuation of clustered tensegrity structures.ComputationalMechanics. 72(3), 431-450.
Lu, M.K.,Zhang, L.*,Chen, X.J.,Vershinin, A., 2023. A unified variational framework of no-tension and no-compression solids and its application to finite element analysis.InternationalJournal ofSolidsandStructures. 275, 112298.
Zhang, L.*, Lu, M.K., Han, L.L., Cao, J.J., 2021. A model reduction method for nonlinear analysis of materials and structures with tension–compression asymmetric properties.Composite Structures.262, 113613.
Lu, M.K., Zheng, Y.G , Du, J.K.,Zhang, L.*, Zhang, H.W., 2021. An adaptive multiscale finite element method for strain localization analysis with the Cosserat continuum theory.European Journal of Mechanics A-Solids. 92, 104450.
Lu, M.K.,Zhang, L.*, Yan, Z., Wu, J., 2021. Nonlinear analysis of structures made of no-tension/compression materials using an efficient projection-contraction algorithm.Computers & Structures. 224, 106432.
6. Yan, Z.,Zhang, L.*, Jin, W.W., 2020. Improved finite element method for inflated beams with local wrinkles.AIAA Journal. 60(7), 4278-4287.
7. Wu, J.,Zhang, L.*, He, Z.G., Yan, Z., 2020. Comparative analysis of two tensegrity grids considering slack and rupture of cables.AIAA Journal. 58(5), 2321-2329.
8. Lv, J., Zheng, M.H.,Zhang, L.*, Song, C., Zhang, H.W., 2020. Geometrically nonlinear analysis of 3D fluid actuated cellular structures using extended multiscale finite element method.International Journal of Mechanics and Materials in Design. 16(3), 503-517.
9.Zhang, L.*, Dong, K.J., Lu, M.K., Zhang, H.W., 2020. A wrinkling model for pneumatic membranes and the complementarity computational framework.Computational Mechanics. 65(1), 119-134.
10.Zhang, L., Gao, Q., Zhang, H.W.*, 2014. Analysis of 2-D bimodular materials and wrinkled membranes based on the parametric variational principle and co-rotational approach.International Journal for Numerical Methods in Engineering. 98(10), 721-746.