Yangao Hu, Ph.D., Associate Professor, Ph.D. Supervisor
I received my Ph.D. degree from the Department of Civil and Architectural Engineering at City University of Hong Kong in 2010. My research interests include multi-scale analysis of engineering materials, high performance concrete, novel composite structural materials, etc. So far, the total citation of my papers has exceeded 900 times, with h-index being 11, and the highest citation of a single paper exceeding 400 times (selected as ESI Highly Cited Paper).
Education
Ph.D. City University of Hong Kong (2010.7)
M.S. Ocean University of China (2006.7)
B.S. Ocean University of China (2001.7)
Career Details
2012.7-2012.8 City University of Hong Kong Research associate
2006.9-2007.3 City University of Hong Kong Research assistant
2010.9- Chongqing university of China Associate professor
Research interests
Nano-mechanics, Mechanics of composites, Multi-scale modeling and simulation, Computational mechancis.
Research Projects
I have undertaken projects sponsored by the Ministry of Education, the Chongqing Science and Technology Plan Basic and Frontier Research Program, the Chongqing Natural Science Foundation, and have been the primary researcher of a project supported by the National Natural Science Foundation of China.
Latest Publications
[1] Li H, Hu Y-G. Study of biaxial stress in rectangular patch-reinforced composites with elastic and damage interface. Composite Structures. 2023;310:116760.
[2] Wang F, Hu Y-G, Liu L, Deng Y, Gu S. Interphase Effect on the Macro Nonlinear Mechanical Behavior of Cement-Based Solidified Sand Mixture. Materials. 2022;15:1972.
[3] Hu Y-G, Awol JF, Chen S, Jiang JN, Pu X, Jia X, et al. Experimental study of the electrical resistance of graphene oxide-reinforced cement-based composites with notch or rebar. Journal of Building Engineering. 2022;51:104331.
[4] Shen N, Peng MY, Gu ST, Hu YG. Effects of the progressive damage interphase on the effective bulk behavior of spherical particulate composites. Acta Mechanica. 2021;232:423-37.
[5] Hu Y-G, Ma YL, Hu CP, Lu XY, Gu ST. Analysis of stress transfer in short fiber-reinforced composites with a partial damage interface by a shear-lag model. Mechanics Of Materials. 2021;160:103966.
[6] Xu X, Zhang Z, Hu Y, Wang X. Bearing Strength of Crumb Rubber Concrete under Partial Area Loading. Materials (Basel, Switzerland). 2020;13.
[7] Hu Y-G, Li YF, Han J, Hu CP, Chen Zh, Gu ST. Prediction of interface stiffness of single-walled carbon nanotube-reinforced polymer composites by shear-lag model. Acta Mechanica. 2019;230:2771-82.
[8] Liao MM, Tang A, Hu YG, Guo ZY. Computation of Coefficients of Crack-Tip Asymptotic Fields Using the Weak Form Quadrature Element Method. Journal of Engineering Mechanics. 2015;141:8.
[9] Liao M, Tang A, Hu Y-G. Calculation of mode III stress intensity factors by the weak-form quadrature element method. Archive Of Applied Mechanics. 2015:1-11.
[10] Hu Y-G, Liew KM, Wang Q. Modeling of vibrations of carbon nanotubes. Procedia Engineering. 2012;31:343-7.
[11] Hu Y-G, Liew KM, He XQ, Li Z, Han J. Free transverse vibration of single-walled carbon nanocones. Carbon. 2012;50:4418-23.
[12] Hu Y-G, Liew KM, Wang Q. Nonlocal continuum model and molecular dynamics for free vibration of single-walled carbon nanotubes. Journal of Nanoscience and Nanotechnology. 2011;11:10401-7.
[13] Hu Y-G, Liew KM, Wang Q. Analysis of elastic wave in carbon nanotubes using continuum mechanics and molecular dynamic simulations. Proceedings of the SPIE - The International Society for Optical Engineering. 2009:74933Y (7 pp.).
[14] Hu Y-G, Liew KM, Wang Q. Nonlocal elastic beam models for flexural wave propagation in double-walled carbon nanotubes. Journal Of Applied Physics. 2009;106:044301-6.
[15] Wang LF, Liew KM, He XQ, Hu YG, Wang Q, Guo WL, et al. Using Model of Strain Gradient Membrane Shell to Characterize Longitudinal Wave Dispersion in Multi-Walled Carbon Nanotubes. Journal of Computational and Theoretical Nanoscience. 2008;5:1980-8.
[16] Liew KM, Hu YG, He XQ. Flexural wave propagation in single-walled carbon nanotubes. Journal of Computational and Theoretical Nanoscience. 2008;5:581-6.
[17] Hu Y-G, Liew KM, Wang Q, He XQ, Yakobson BI. Nonlocal shell model for elastic wave propagation in single- and double-walled carbon nanotubes. Journal Of The Mechanics And Physics Of Solids. 2008;56:3475-85.
[18] Sun YZ, Hu YG, Liew KM. A mesh-free simulation of cracking and failure using the cohesive segments method. International Journal Of Engineering Science. 2007;45:541-53.
[19] Liew KM, Hu YG, Zhao X, Ng TY. Dynamic stability analysis of composite laminated cylindrical shells via the mesh-free kp-Ritz method. Computer Methods In Applied Mechanics And Engineering. 2006;196:147-60.
[20] Liew KM, Hu YG, Ng TY, Zhao X. Dynamic stability of rotating cylindrical shells subjected to periodic axial loads. International Journal Of Solids And Structures. 2006;43:7553-70.