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| Dr. Yang Yang is the associate professor at department of Materials Science in Shenzhen MSU-BIT University. She obtained her bachelor in China Agriculture University, obtained master and Ph.D. degrees in University of Macau. She studied in Siegen University of Germany as a visiting scholar supervised by Chuanzeng Zhang who is an academician of three academies of sciences in European. So far, she has published 30 papers as the first and corresponding author. She has presided 5 national and ministry projects and attended 9 projects as the key member. During academic career, she was honored to be awarded the “Du Qinghua Outstanding Youth Award for Engineering Computational method”, “Excellent Youth Award in Engineering Computing Software”, “Outstanding Postdoctoral fellow of president”, “Overseas high-level C-class talents (Peacock C)” and “Best paper award” at Cambridge. Now, she is the secretary general of National Engineering Computing Software Development Forum, member of Academic Committee of National Engineering Computing Methods, Boundary Element and Dimensional Reduction Method.
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| • Y. Yang*, K.P. Kou, V.P. Iu, C.C. Lam, C.Z. Zhang. Free vibration analysis of two-dimensional functionally graded structures by a meshfree boundary-domain integral equation method. Composite Structures, 110(2014), pp. 342-353.
• Y. Yang*, C.C. Lam, K.P. Kou, V.P. Iu. Free vibration analysis of the functionally graded sandwich beams by a meshfree boundary-domain integral equation method. Composite Structures, 117(2014), pp. 32-39.
• Y. Yang*, C.C. Lam, K.P. Kou. Fatigue life analysis of internal circumferential crack of tubular structures. International Journal of Damage Mechanics. 24(2015), pp. 711-727.
• Y. Yang*, K.P. Kou, C.C. Lam. Fracture analysis of the long-deep semielliptical internal circumferential cracks grow from surface to fully through-wall crack in tubular members. International Journal of Damage Mechanics. 24(2015), pp.1155-1179.
• Y. Yang*, K.P. Kou, C.C. Lam, V.P. Iu. Free vibration analysis of two-dimensional functionally graded coated and undercoated substrate structures. Engineering Analysis with Boundary Elements, 60(2015), pp.10-17.
• Y. Yang, C.C. Lam*, K.P. Kou. Forced vibration analysis of functionally graded beams by the meshfree boundary-domain integral equation method. Engineering Analysis with Boundary Elements, 72(2016), pp. 100–110.
• Y. Yang*, K.P. Kou, C.C. Lam. In-plane free vibration of circular and annular FG disks. International journal of Computational Methods, 2018, 1840024.
• B.J. Zheng, Y. Yang*, X.W. Gao, Ch. Zeng. Dynamic fracture analysis of functionally graded materials under thermal shock loading by using the radial integration boundary element method. Composite Structures, 201(2018), pp. 468-476.
• K.P. Kou, Y. Yang*. A meshfree boundary-domain integral equation method for free vibration analysis of the functionally graded beams with open edged cracks. Composites Part B: Engineering 156(2019), pp: 303-309.
• Y. Yang*, K.P. Kou, C.C. Lam, V.P Iu. Dynamic behaviors of tapered bi-directional functionally graded beams with various boundary conditions under action of a moving harmonic load. Engineering Analysis with Boundary Elements, 104(2019), pp: 225-239.
• Y. Yang*, Y.J. Liu. A new boundary element method for modeling wave propagation in functionally graded materials. European Journal of Mechanics - A/Solids, 80(2020), 103987.
• Y. Yang*, Y.J. Liu. Modeling of cracks in two-dimensional elastic bodies by coupling the boundary element method with peridynamics. International Journal of Solids and Structures, 2021, 217-218: 74-89.
• X.Y. Han, Y. Yang*, Y.J. Liu. Determining the defect locations and sizes in elastic plates by using the artificial neural network and boundary element method. Engineering Analysis with Boundary Elements. 2022, 139, 232-245.
• Y. Yang*, Y.J. Liu. Analysis of dynamic crack propagation in two-dimensional elastic bodies by coupling the boundary element method and the bond-based peridynamics. Computer Methods in Applied Mechanics and Engineering, 2022, 399, 115339.
• Y.J. Chen, Y. Yang*, Y.J. Liu. Large deformation and crack propagation analyses of hydrogel by peridynamics. Engineering Fracture Mechanics, 2023, 109261.
• Y.J. Chen, Y. Yang*, Y.J. Liu. Fatigue crack growth analysis of hydrogel by using peridynamics. International Journal of Fracture. 2023. https://doi.org/10.1007/s10704-023-00722-x.
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