个人简介
1986年9月出生,现为华侨大学土木工程学院教授,博士生导师。入选福建省引进高层次人才(境外B类)。主持包括国家自然科学基金、日本学术振兴会科学基金和福建省杰出青年科学基金在内的多项国家和省部级科研项目。研究成果发表于《Journal of Structural Engineering-ASCE》、《Earthquake Engineering and Structural dynamics》、《Engineering Structures》、《土木工程学报》和《建筑结构学报》等国内外权威期刊上。授权多项国家发明专利和实用新型专利。
教育经历
[1] 2005.9 -- 2009.7
清华大学 土木工程系 大学本科 学士,专业排名:2/90
[2] 2009.9 -- 2014.7
清华大学 土木工程系 博士研究生 博士,导师:聂建国院士
[3] 2013.1 -- 2013.4
美国弗吉尼亚理工 土木与环境工程系 访问学者,合作导师:Prof. Matthew R. Eatherton
工作经历
[1] 2014.11 -- 2016.2
日本京都大学 防灾研究所 JSPS特别研究员,合作导师:美国工程院院士中岛正爱(Masayoshi Nakashima)教授
[2] 2016.4 -- 至今
华侨大学 土木工程学院 教授
授课信息
高层建筑结构设计
结构抗震设计
弹塑性力学
钢-混凝土组合结构
近期论文
查看导师新发文章
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[1] Hu HS*, Lin K, Shahrooz BM, Guo ZX. Revisiting the composite action in axially loaded circular CFST columns through direct measurement of load components. Engineering Structures, 2021, 235: 112066. (SCI).
[2] Hu HS*, Lin F, Xu LW, Gao YC, Guo ZX. Peak sliding displacements of sliding base structures subjected to earthquake excitations. Under review.
[3] Hu HS*, Xu L, Guo ZX, Shahrooz BM. Behavior of eccentrically loaded square spiral-confined high-strength concrete-filled steel tube columns. Engineering Structures, 2020, 216: 110743. (SCI).
[4] Hu HS*, Lin F, Gao YC, Guo ZX, Wang C. Maximum superstructure response of sliding base structures under earthquake excitation. Journal of Structural Engineering-ASCE, 2020, 146(7): 04020131. (SCI)
[5] Hu HS*, Fang PP, Liu Y, Guo ZX, Shahrooz BM. Local buckling of steel plates in composite members with tie bars under axial compression. Engineering Structures, 2020, 205: 110097. (SCI)
[6] Hu HS*, Wang HZ, Guo ZX, Shahrooz BM. Axial compressive behavior of square spiral-confined high-strength concrete-filled steel tube columns. Journal of Structural Engineering-ASCE, under review.
[7] Hu HS*, Wang RT, Guo ZX, Shahrooz BM. A generalized method for estimating drifts and drift components of tall buildings under lateral loading. The Structural Design of Tall and Special Buildings, 2019, online publication. (SCI)
[8] Hu HS*, Liu Y, Zhuo BT, Guo ZX, Shahrooz BM. Axial Compressive Behavior of Square CFST Columns through Direct Measurement of Load Components. Journal of Structural Engineering-ASCE, 2018, 144(11): 04018201. (SCI)
[9] Hu HS*, Nakashima M. Responses of two-degree-of-freedom sliding base systems subjected to harmonic ground motions. Journal of Structural Engineering-ASCE, 2017, 143(2): 04016173. (SCI)
[10] Hu HS, Nie JG*, Fan JS, Tao MX, Wang YH, Li SY. Seismic behavior of CFST-enhanced steel plate-reinforced concrete shear walls. Journal of Constructional Steel Research, 2016, 119: 176-189. (SCI)
[11] Hu HS*, Nie JG, Wang YH. Shear capacity of concrete-filled steel plate composite coupling beams. Journal of Constructional Steel Research, 2016, 118: 76-90. (SCI)
[12] Hu HS*, Nie JG, Wang YH. Effective stiffness of rectangular concrete filled steel tubular members. Journal of Constructional Steel Research, 2016, 116: 233-246. (SCI)
[13] Hu HS*, Nie JG, Wang YH. Theoretical analysis of simply supported channel girder bridges. Structural Engineering and Mechanics, 2015, 56(2): 241-256. (SCI)
[14] Hu HS*, Nie JG. Numerical study of concrete-filled steel plate composite coupling beams. Thin-Walled Structures, 2015, 96: 139-154. (SCI)
[15] Hu HS, Nie JG*, Eatherton MR. Deformation capacity of concrete-filled steel plate composite shear walls. Journal of Constructional Steel Research, 2014, 103: 148-158. (SCI)
[16] Hu HS, Nie JG*, Eatherton MR. Internal force and deformation of concrete-filled steel plate composite coupling beams. Journal of Constructional Steel Research, 2014, 92: 150-163. (SCI)
[17] Nie JG*, Hu HS, Eatherton MR. Concrete filled steel plate composite coupling beams: Experimental study. Journal of Constructional Steel Research, 2014, 94: 49-63. (SCI)
[18] Nie JG, Hu HS*, Fan JS, Tao MX, Li SY, Liu FJ. Experimental study on seismic behavior of high-strength concrete filled double-steel-plate composite walls. Journal of Constructional Steel Research, 2013, 88: 206-219. (SCI)
[19] Barbagallo F*, Hamashima I, Hu HS, Kurata M, Nakashima M. Base Shear Capping Buildings with Graphite-Lubricated Bases for Collapse Prevention in Extreme Earthquakes. Earthquake Engineering and Structural dynamics, 2017, 46:1003-1021. (SCI)
[20] Bai Y, Hu HS, Wang J, Sun Q. Modeling on collapse behaviour of high-rise concrete-filled steel composite frames under over-design seismic excitations. Structure and Infrastructure Engineering, 2017, 13(12): 1563-1575. (SCI)
[21] Ji X*, Zhang M, Kang H, Qian J, Hu HS. Effect of cumulative seismic damage to steel tube-reinforced concrete composite columns. Earthquakes and Structures, 2014, 7(2): 179-199. (SCI)
[22] Wang YH*, Nie JG, Hu HS. Stability of steel-concrete composite beams with full openings in concrete flange. Materials and Structures, 2016, 49(12): 5117-5130. (SCI)
[23] Liu Y*, Chen H, Guo Z, Hu HS. Seismic performance of subassemblies with composite wall and replaceable steel coupling beam. Journal of Asian Architecture and Building Engineering, 2020, 19(2): 123-137. (SCI)
学术兼职
[1] 中国建筑学会村镇防灾专业委员会委员
[2] 中国地震学会基础设施防震减灾青年委员会委员
[3] 日本建筑学会(AIJ)会员