个人信息Personal Information
学历:博士研究生毕业
学位:工学博士学位
办公地点:犀浦校区2教2505A
所在单位:力学与航空航天学院
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[27] Yuan X. B.*, Angle-dependent peeling behavior of compliant nano-films adhered to planar substrates via van der Waals interactions: atomistic simulations and mechanical analysis, 2024.
[26] Liu S. Y., Wu J.*, He S, Yuan X. B., et al., Effect of interfacial interaction on stick-slip mechanism of flexible film/substrate bilayer structure: Multiscale insight, 2024.
[25] Yuan X. B.*, et al., Mechanics of planar variable-curvature interconnects for stretchable electronics, 2024.
[24] Liu S. Y., Wu J.*, He S, Yuan X. B., Stupkiewicz S., Wang Y. S.. Effect of Substrate Stiffness on Interfacial Schallamach Wave of Flexible Film/Substrate Bilayer Structure: Cohesive Contact Insight. Tribology International, 2024: 110358.
[23] Yuan X. B.*#, Zhao P. Z.#, Fan Q., Wang Y. S., Li X. Y.*. Theoretical and numerical analysis on buckling instability in a thin film sandwiched between two finite-thickness substrates under in-plane compression. International Journal of Solids and Structures, 2024, 304: 113037.
[22] Yuan X. B.*, Zhao P. Z., Fan Q.*, The peeling behavior of compliant nano-films in adhesive contact with a planar rigid substrate: Insights from molecular dynamics and continuum mechanics. Thin-Walled Structures, 2024: 112272.
[21] Liu S. Y., Wu J.*, He S. X., Yang B. H., Su B. L., Yuan X.B., Wang, Y. S., Normal contact mechanism of flexible film/substrate bilayer structure: Experimental and numerical insight. Composite Structures, 2024, 329: 117791.
[20] Yuan X. B.*, Zhao P. Z., Wang Y.S., Buckling mechanics of a stiff thin film embedded between two compliant substrates. International Journal of Applied Mechanics, 2023, 15: 2350027.
[19] Yuan X. B.*, Wang Y.S., Nonlinear stretching mechanics of planar Archimedean-spiral interconnects for flexible electronics, Thin-Walled Structures, 2023, 185: 110568.
[18] Yuan X. B.*, Zhu B., Wang Y. S.*. Post-buckling evolution of compressed thin films adhered to rigid substrates. International Journal of Mechanical Sciences, 2022: 107616.
[17] Yuan X. B., Won S. M., Han M. D., Wang Y. S., Rogers J. A., Huang Y. G.*, Wang H. L.*. Mechanics of encapsulated three-dimensional structures for simultaneous sensing of pressure and shear stress. Journal of the Mechanics and Physics of Solids, 2021, 151: 104400.
[16] Yuan X. B., Wang Y. S.*, Lin G. C., The peeling behavior of compliant cylindrical shells in adhesive contact with a planar rigid substrate. Soft Matter, 2020, 16(4): 1011-1020.
[15] Won S. M. , Wang H. L. , Kim B. H., Han M. D., Jang H., Crawford K. E., Li H. B., Yuan X. B., Kim S.B., Oh Y.S., Jang W.J., Lee J.Y., Han S.Y., Kim J.H., Wang X.J., Xie Z.Q., Zhang Y.H., Huang Y.G.*, Rogers J.A.*. Multimodal Sensing with a Three-Dimensional Piezoresistive Structure. ACS Nano, 2019, 13(10): 10972-10979.
[14] Yuan X. B., Wang Y. S.*, Radial deformation of single-walled carbon nanotubes adhered to solid substrates and variations of energy. International Journal of Solids and Structures, 2018, 144: 145-159.
[13] Yuan X. B., Wang Y. S.*, Zhu B., Adhesion between two carbon nanotubes: Insights from molecular dynamics simulations and continuum mechanics. International Journal of Mechanical Sciences, 2018, 138: 323-336.
[12] Yuan X. B. Wang Y. S.*, Collapsed adhesion of carbon nanotubes on silicon substrates: continuum mechanics and atomistic simulations. Nanotechnology, 2018, 29(7): 075705.
[11] Yuan X. B., Wang Y. S.*, Adhesion of carbon nanotubes on elastic substrates with finite thickness. Journal of Applied Physics, 2018, 124(15): 155306.
[10] Yuan X. B., Wang Y. S.*, Lin G. C., Adhesion of single-and multi-walled carbon nanotubes to silicon substrate: atomistic simulations and continuum analysis. Journal of Physics D: Applied Physics, 2017, 50(39): 395303.
[9] Yuan X. B., Wang Y. S.*, Atomistic simulations on interwall sliding behavior of double-walled carbon nanotube: effects of structural defects. Molecular Simulation, 2017, 43(12): 953-961.
[8] Lin G. C.*, Chen S. Q., Yuan X. B., et al. Transmission loss of thin membrane-type acoustic metamaterials with multi-masses, International Conference on Innovative Material Science and Technology, 2016: 67-74.
[7] Yuan X. B., Wang Y. S., Lin G. C.*, Mechanical properties of armchair silicene nanoribbons with edge cracks: a molecular dynamics study. Molecular Simulation, 2016, 42(14): 1157-1164.
[6] Yuan X. B., Lin G. C., Wang Y. S.*, Design of elliptic cylindrical thermal cloak with layered structure. International Journal of Modern Physics B, 2017, 31(1): 1650244.
[5] Yuan X. B., Lin G. C., Wang Y. S.*, Design of layered structure for thermal cloak with complex shape. Modern Physics Letters B, 2016, 30(20): 1650256.
[4] Yuan X. B., Lin G. C., Wang Y. S.*, Two-dimensional cylindrical thermal cloak designed by implicit transformation method[J]. The European Physical Journal Applied Physics, 2016, 75(1): 10901.
[3] Yuan X. B., Lin G. C., Wang Y. S.*, Influence of nonlinear coordinate transformation on thermal cloaking performances of cylindrical thermal cloaks. AIP Advances, 2016, 6(4): 045013.
[2] Lin G. C.*, Yuan X. B.*, Luo X. L., He G., Tan H. F., et al. Effect of misalignment on shear response of plain woven fabric in picture frame test: experiments and finite element modelling. Journal of The Textile Institute, 2016, 107(10): 1296-1304.
[1] Yuan X. B., Lin G. C.*, Tan H. F., Shear Deformation Analysis of Fabric Prepreg through Picture-Frame Test and Finite Element Method. Asian Journal of Chemistry, 2014, 26(17):5857-5860.