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郝洪 天津大学

郝洪,男,教授,电子邮箱honghao@tju edu cn,主要研究方向有抗爆工程、地震工程与结构健康监测。

  主要学历

  工学博士(PhD) 1985.07~1989.06 美国 加利福尼亚大学伯克利分校 结构工程

  工学硕士(MS) 1984.08~1985.05 美国 加利福尼亚大学伯克利分校 结构工程

  工学学士(BE) 1978.09~1982.07 中国 天津大学 水工结构

 

  主要学术经历

  大学首席教授(Winthrop Chair Professor) 2009.01~现今

  澳大利亚 西澳大利亚大学土木与资源工程学院(School of Civil and Resource Engineering, the University of Western University)

  首席教授(Chair Professor) 2004.04~2008.12

  澳大利亚 西澳大利亚大学土木与资源工程学院(School of Civil and Resource Engineering, the University of Western University)

  长江学者讲座教授(Changjiang Chair Professor)2007.03~2010.03

  中国 天津大学建筑工程学院(School of Civil Engineering, Tianjin University)

  学科负责人(Chair)2003.05~现今

  澳大利亚 西澳大利亚大学结构工程学科(Structure Engineering Discipline, the University of Western University)

  副教授(AssociateProfessor) 2002.01~2004.03

  澳大利亚 西澳大利亚大学土木与资源工程学院(School of Civil and Resource Engineering, the University of Western University)

  副教授(Associate Professor)1999.01~2001.12

  新加坡 南洋理工大学土木与结构工程学院(School of Civil and Structural Engineering,Nanyang Technological University)

  高级讲师(Senior Lecturer) 1996.01~1998.12

  新加坡 南洋理工大学土木与结构工程学院(School of Civil and Structural Engineering,Nanyang Technological University)

  讲师(Lecturer)1990.02~1995.12

  新加坡 南洋理工大学土木与结构工程学院(School of Civil and Structural Engineering,Nanyang Technological University)

  博士后研究员(Post-Doctoral Fellow) 1989.06~1990.01

  美国 加利福尼亚大学伯克利分校地震中心(Seismographic Station, University of California at Berkeley)

 

  主要讲授课程

  研究生课程:Seismic Design of Buildings and Structures

 

  主要学术兼职

  [1] 国际防护工程学会创始人

  [2] 澳大利亚地震工程学会当选主席;

  [3] 澳大利亚地震工程学会西澳分会主席;

  [4] 澳大利亚结构健康监测学会发起人,理事;

  [5] 美国土木工程师学会奖励提名委员会成员;

  [6] 美国土木工程师学会结构工程学会创始人;

  [7] 澳大利亚工程师学会高级会员;

  [8] 美国土木工程师学会高级会员;

  [9] 美国土木工程师学会澳大利亚分会理事;

  [10] 澳大利亚研究基金评审专家学者(AusReader);

  [11] 香港,意大利,英国,瑞士,以色列,捷克等研究基金海外评审专家;

  [12]中国国家自然科学基金委员会海外评审专家;

  [13] 澳大利亚科学院(CSIRO)气侯变化对环境影响研究课题顾问;

  [14] 澳大利亚工程师学会西澳分会结构工程理事(Structure Panel Member);

  [15] 新加坡地震工程学会资深委员

  [16] 澳大利亚西澳华人科学家协会副会长

  [17] 国际期刊《International Journal of Protective Structures》主编;   [18] 国际期刊《International Journal of Engineering Structures》编委;   [19] 国际期刊《International Journal of Advances in Structural Engineering》编委;

  [20] 国际期刊《International Journal of Advances in Civil Engineering》编委;

  [21] 国际期刊《International Journal of Lifecycle Performance Engineering》编委;

  [22] 国际期刊《Open Acoustic Journal》编委;

  [23] 国际期刊《International Journal of 3R’s》编委;

  [24] 核心期刊《工程抗震与加固改造》 国际编委;

  [25] 国际期刊《International Journal of Advances in Structural Engineering》特邀编辑;

  [26] 国际期刊《International Journal of Impact Engineering》特邀编辑;

  [27] 国际期刊《International Journal of Structural Dynamics and Stability》特邀编辑;   [28] 国际期刊《Australian Journal of Structural Engineering》特邀编辑。

 

  主要学术成就、奖励及荣誉

  郝洪教授长期从事结构抗震,抗爆和结构健康监测的理论和应用研究,已发表220多篇国际杂志论文(大部分被SCI收录)、300多篇国际会议论文(包括20篇大会特邀报告和10多篇邀请报告)、50多篇研究报告,及专著中的5个章节。担任过9个国际系列学术会议的主席或者共同主席,主编了5本国际杂志专题论文集,和9本会议论文集。发表的论文被SCI引用2000多次(1600多次为他引),个人H-Index高达25。他先后获得新加坡,澳大利亚,中国,日本,和新西兰政府的研究经费累计900多万澳元,相关成果被写入国际著名地震工程专家Clough和Penzien所著的国际经典教科书《Dynamics of Structures》中以及被被北大西洋公约组织的《军火库设计规范(AASTP-1)》所采纳。

 

  主要科研项目及角色

  [1] 国家自然科学基金专项基金项目科学仪器基础研究专款. 三维霍普金森杆冲击加载装置研制 (51227006)300万元.2013.1—2016.12. 项目负责人.

  [2] 国家杰出青年科学基金海外青年学者合作研究基金(杰B). 防灾工程-复杂城市环境中爆炸荷载作用下结构的灾害评估与减灾研究(50528808). 2006.1-2008.12. 项目负责人.

 

  代表性论文 / 论著及检索情况

  [1]C. Wu and H. Hao, ‘Numerical simulation of response of structures to simultaneous blast-induced ground excitations and airblast forces from nearby surface explosions’. International Journal of Impact Engineering 34 (3), 556-572, 2007.

  [2]X.Q. Zhou and H. Hao, ‘Prediction of blast loads on structures behind a protective barrier’, International Journal of Impact Engineering, Vol. 35, 2008, pp363-375.

  [3]X.Q.Zhou, V.A. Kuznetsov, H. Hao and J. Waschl., “Numerical prediction of concrete slab response to blast loading”, International Journal of Impact Engineering, Vol. 35(10), pp1186-1200

  [4]Chengqing Wu and Hong Hao, “Numerical derivation of homogenized material properties of hollow concrete block masonry”, International Journal of Engineering Structures, Vol.30, 2008, pp870-883.

  [5]Chengqing Wu and Hong Hao, “Safe Scaled Distance for Masonry Infilled RC Frame Structures Subjected to Airblast Loads”, Journal of Performance of Constructed Facilities, ASCE, Vol.21, 2007, pp422-431.

  [6]Yanchao Shi, Hong Hao and Zhong-xian Li, “Numerical Simulation of Blast Wave Interaction with Structure Columns", Shock Waves - An International Journal on Shock Waves, Detonations and Explosions, Vol.17, No.1-2, August 2007, pp113-134.

  [7]Yanchao Shi, Hong Hao and Zhong-Xian Li, “Numerical derivation of pressure-impulse diagrams for prediction of RC column damage to blast loads”, International Journal of Impact Engineering, Vol. 35(11), pp1213-1227.

  [8]Xueying Wei and Hong Hao, ‘Numerical derivation of homogenized dynamic masonry material properties with strain rate effects’, International Journal of Impact Engineering, Vol. 36(3), 2009, pp522-536.

  [9]Hong Hao and Boris G. Tarasov, ‘Experimental study of dynamic material properties of clay brick and mortar at different strain rates’, Australian Journal of Structural Engineering, Vol. 8(2), pp117-131, 2008.

  [10]X.Q. Zhou and H. Hao. ‘Modelling of Compressive Behaviour of Concrete-like Material at High Strain Rate’, International Journal of Solids and Structures, Vol.45, pp4648-4661.

  [11]X.Q. Zhou and H. Hao, ‘Numerical prediction of reinforced concrete exterior wall response to blast loading’, International Journal of Advances in Structural Engineering, Vol11(4), pp355-368, 2008.

  [12]X. Q. Zhou and Hong Hao, ‘Mesoscale modeling of concrete tensile failure mechanism at high strain rate’, International Journal of Computers and Structures, Vol. 86, pp2013-2026, 2008.

  [13]Yanchao Shi, Zhong-Xian Li and Hong Hao, ‘Mesh size effect in numerical simulation of blast wave propagation and interaction with structures’, Transactions of Tianjin University, Vol.14(6), pp396-402, 2008

  [14]Ming Wang, Hong Hao, Yang Ding and Zhong-Xian Li, ‘Numerical prediction of statistical masonry wall fragment distribution induced by blast loading’, Transactions of Tianjin University, Vol.14(6), pp409-413, 2008

  [15]Ming Wang, Hong Hao, Yang Ding and Zhong-Xian Li, ‘Prediction of fragment size and ejection distance of masonry wall under blast load using homogenized masonry material properties’, International Journal of Impact Engineering, Vol 36(60), pp808-820, 2009.

  [16]X.Q. Zhou and Hong Hao, ‘Mesoscale modeling and analysis of damage and fragmentation of concrete slab under contact detonation’, International Journal of Impact Engineering, Vol. 36, pp1315-1326, 2009.

  [17]Hong Hao, ‘Numerical modelling of masonry wall response to blast loads’, Australian Journal of Structural Engineering, Vol. 9, pp37-52, 2009.

  [18]Yanchao Shi, Zhong-Xian Li and Hong Hao, ‘Bond slip modeling and its effect on numerical analysis of blast-induced responses of RC columns’. International Journal of Structural Engineering Mechanics, Vol. 32(2), 2009, pp251-267.

  [19]Y.F. Hao, H. Hao and Z-X Li, ‘Numerical analysis of lateral inertial confinement effects on impact test of concrete compressive material properties’, International Journal of Protective Structures, Vol 1(1), pp145-167, 2010.

  [20]Y. C Shi, Z-X Li and H. Hao, ‘A New Method for Progressive Collapse Analysis of RC Frames under Blast Loading’, International Journal of Engineering Structures, Vol.32, 2010, pp1691-1703.

  [21]Chunwei Zhang, Hong Hao, Boris G. Tarasov and Xinqun Zhu, ‘Some key issues on strain signal measurements of high-speed impact test: preliminary results and phenomenon interpretations’, International Journal of Structural Engineering, Vo.3, No1/2, 2012, pp48-60.

  [22]Edmond K Tang and Hong Hao, ‘Numerical Simulation of a Cable-Stayed Bridge Response to Blast Loads Part I: Model Development and Response Calculations’, International Journal of Engineering Structures, Vol.32(10), pp3180-3192, 2010.

  [23]Hong Hao and Edmond K Tang, ‘Numerical Simulation of a Cable-Stayed Bridge Response to Blast Loads Part II: Damage Prediction and FRP Strengthening’, International Journal of Engineering Structures, Vol.32(10), pp3193-3205, 2010.

  [24]H. Hao, M. Stewart, Z.X. Li and Y. C Shi, ‘RC column failure probability to blast loads’, International Journal of Protective Structures, Vol.1(4), pp571-591.

  [25]Azrul Mutlib and H. Hao, ‘Development of P-I diagrams for FRP strengthened RC columns’, International Journal of Impact Engineering, Vol.38, 2011, pp290-304.

  [26]Azrul A. Mutalib and Hong Hao, ‘Numerical analysis of FRP composite strengthened RC panels with anchorages against blast loads’, ASCE Journal of Performance of Constructed Facilities, Vol. 25(5),Nov, 2011, PP360-372.

  [27]Jun Li and Hong Hao, ‘A Simple and Efficient Numerical Approach to Predict Structure Responses to Blast Loading, International Journal of Protective Structures, Vol.2 (1), 2011, pp103-126.

  [28]Yifei Hao and Hong Hao, ‘Influence of Aggregates on Concrete Compressive Strength at High strain rate‘, International Journal of Protective Structures, Vol.2(2), 2011, pp177-206.

  [29]Guowei Ma, Hong Hao and Fang Wang, ‘Simulations of explosion-induced damage to underground rock chambers’, Journal of Rock Mechanics and Geotechnical Engineering, Vol.3 (1), 2011, pp19-29.

  [30]Z. Xu, H. Hao and Hongnan Li, ‘Mesoscale modelling of fibre reinforced concrete material under compressive impact loading’, Construction and Building Materials, Volume 26, Issue 1, January 2012, Pages 274-288

  [31]Z. Xu, H. Hao and Hongnan Li,, ‘Experimental study of dynamic compressive properties of fibre reinforced concrete material with different fibres’, International Journal of Materials and Design, Vol.33, pp42-45, 2012.

  [32]Yifei Hao, Hong Hao and Xi-Hong Zhang, ‘Numerical analysis of concrete material properties at high strain rate under direct tension’ International Journal of Impact Engineering, Vol. 39, pp51-62, 2012.

  [33]Z. Xu, H. Hao and Hongnan Li, ‘Influence of fibre shapes on dynamic compressive behaviour of fibre reinforced concrete’, Journal of Applied Mechanics and Materials, Vol.82, 2011, pp112-117.

  [34]Azrul Mutlib and Hong Hao, ‘The effect of anchorages on FRP strengthening RC walls to resist blast loads’, Journal of Applied Mechanics and Materials, Vol.82, 2011, pp497-502.

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