香港理工大學(xué)工業(yè)及系統(tǒng)工程學(xué)系招金屬材料相關(guān)Ph.D和Research Associate
導(dǎo)師:楊許生助理教授 (X.S. Yang),張統(tǒng)一院士學(xué)生。從事材料專(zhuān)業(yè)金屬方向研究,納米結(jié)構(gòu)金屬材料的力學(xué)行為,相變,及HRTEM微觀結(jié)構(gòu)分析,課題組與上海大學(xué)材料基因組工程研究院、中科院力學(xué)所、香港科技大學(xué)、日本京都大學(xué)和英國(guó)牛津大學(xué)等有良好的合作關(guān)系。
PhD要求:學(xué)校985,211本科或者碩士畢業(yè),成績(jī)優(yōu)秀,有SCI文章最好。獎(jiǎng)學(xué)金大致HK$15700/month。英語(yǔ)要求:雅思6.5,單科不低于6,或者托福80,寫(xiě)作不低于23. (英語(yǔ)要求為學(xué)校的入學(xué)要求)。入學(xué)后表現(xiàn)優(yōu)秀者,可推薦到國(guó)外名校合作交流。
Hong Kong PhD Fellowship(HKPF):優(yōu)秀者可支持申請(qǐng)香港政府資助的博士研究生計(jì)劃,香港政府提供的每月2萬(wàn)港幣獎(jiǎng)學(xué)金,且PolyU免除每年4萬(wàn)2千港幣的學(xué)費(fèi)。
Research Associate 要求: 即將或者已博士畢業(yè),無(wú)英語(yǔ)要求
如有意向,可發(fā)送英文簡(jiǎn)歷到郵箱:xsyang@polyu.edu.hk.
Brief Biosketch
Dr. Yang received his B. Eng. degree in Mechanical Engineering and Automation, and his M. Eng. degree in Materials Processing Engineering from South China University of Technology (SCUT). He received a Ph.D degree in Mechanical Engineering in Aug. 2014 from HKUST, under the supervision of Prof. Tong-Yi Zhang (Member of CAS). He then became a Research Assistant at HKUST and then a Research Associate at PolyU. In Feb. 2016 he won the PolyU Postdoctoral Fellowships Scheme supervised by Prof. San-Qiang Shi and Dr. Hai-Hui Ruan. He joined the Department of Industrial and Systems Engineering (ISE) at The Hong Kong Polytechnic University as an Assistant Professor in 2017.
Dr. Yang’s research interests include: high strength and high ductility materials, martensitic phase transformation; nanograined and nanotwinned materials, stress relaxation, creep and fatigue behaviors; in-situ high-resolution transmission electron microscopy (in-situ HRTEM), etc. His research works verified and enriched, at the atomic-scale for the first time, a half-century-old classic BBOC martensitic transformation atomic shear model, and built-up a formula for describing the time, stress and temperature-dependent stress relaxation and creep deformation behavior. His papers have been published in top specialized journals, including Acta Materialia and the Journal of the Mechanics and Physics of Solids, etc. In PolyU, he would like to explore new metallic materials with some advanced properties, and investigate the relationships between micro/nanostructure and properties in materials.
Teaching and Research Specialties
High strength and high ductility materials, martensitic phase transformation; nanograined and nanotwinned materials, stress relaxation, creep and fatigue behaviors; in-situ high-resolution transmission electron microscopy (in-situ HRTEM); high entropy alloys and hydrogen storage materials, etc.
Selected Publications
X-S Yang, Y-J Wang, H-R Zhai, G-Y Wang, Y-J Su, L. H. Dai, S Ogata, T-Y Zhang, Time-, stress-, and temperature -dependent deformation in nanostructured copper: Creep tests and simulations, Journal of the Mechanics and Physics of Solids 94 (2016) 191-206
X-S Yang, Y-J Wang, G-Y Wang, H-R Zhai, L. H. Dai, T-Y Zhang, Time, stress, and temperature-dependent deformation in nanostructured copper: Stress relaxation tests and simulations, Acta Materialia 108 (2016) 252-263
X-S Yang, S Sun, T-Y Zhang, The mechanism of bcc α¢ nucleation in single hcp e laths in the fcc γ→hcp e →bcc α¢ martensitic phase transformation, Acta Materialia 9 (2015) 264-273
X-S Yang, S Sun, X-L Wu, Evan Ma and T-Y Zhang, Dissecting the mechanism of martensitic transformation via atomic-scale observations. Scientific Reports 4 (2014) 6141
H Ren, X-S Yang, Y Gao, T-Y Zhang, Solute concentrations and stresses in nanograined H-Pd solid solution, Acta Materialia 61 (2013) 5487-5495
L. Z. Ouyang, X. S. Yang, M. Zhu, J. W. Liu, H. W. Dong, D. L. Sun, J. Zou, X. D. Yao, Enhanced hydrogen storage kinetics and cycling stability by synergistic effects of in situ formed CeH2.73 and Ni in CeH2.73-MgH2-Ni nanocomposites, The Journal of Physical Chemistry C 118 (2014) 7808-7820 (highly cited paper in 2015)
L.Z. Ouyang, X.S. Yang, H.W. Dong, M. Zhu, Structure and hydrogen storage properties of Mg3Pr and Mg3PrNi0.1alloys, Scripta Materialia 61(2008) 339-342
L.Z. Ouyang, L. Yao, X.S. Yang, L.Q. Li, M. Zhu, The effect of Co and Ni addition on the hydrogen storage properties of Mg3Mm, International Journal of Hydrogen Energy35 (2010) 8275-8280
Z-D Huang, K Zhang, T-T Zhang, X-S Yang; R-Q Liu, Y Li, X-J Lin, X-M Feng, Y-W Ma, W Huang, Agave-strictanana-like hierarchical NiCoO2 mesoporous thorn microspheres as superior rate capability anode for lithium ion batteries, Energy Storage Materials 3 (2016), 36-44
Z-D Huang, K Zhang, T-T Zhang, X Li, R-Q Liu, X-M Feng, Y Li, X-J Lin, Y-B He, X-S Yang and Y-W Ma, Hierarchical dispersed multi-phase nickel cobalt oxide mesoporous thorn microspheres as superior rate anode materials for lithium ion batteries, Journal of Materials Chemistry A 3 (2015) 20886-20891
L.Z. Ouyang, Y.J. Wen, Y.J. Xu, X.S. Yang, L.X. Sun, M. Zhu, The effect of Ni and Al addition on hydrogen generation of Mg3La hydrides via hydrolysis, International Journal of Hydrogen Energy35 (2010) 8161-8165
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