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简介

杨永斌(1954.08—)福建金门人,教授,博士生导师,结构工程和力学专家。2007年当选为奥地利科学院外籍院士,2009年当选为中国工程院院士,2018年当选为欧盟科学院院士。2014年8月全职引进重庆大学,现任重庆大学土木工程学院荣誉院长,重庆大学工程振动与防灾研究中心主任,台大名誉教授。至目前为止,已经发表3本英文专著,国内外期刊论文220余篇,国内外会议论文270余篇,各类报告110余种。


教育经历

1984.04 美国康奈尔大学/结构工程 博士学位

1980.06 台湾大学/土木工程       硕士学位

1976.06 台湾大学/土木工程       学士学位


社会任职

重庆大学土木工程学院名誉院长(2014.08—)

台湾云林科技大学校长(2009-2013)

香港城市大学建筑与建设系讲座教授(2008- 2009)

台湾大学工学院宗倬章先生讲座教授(2007- 2014)

台湾大学土木工程学系特聘教授 (2006-2014)

台湾国科会委员会土木学门召集人(2002-2005)

台湾大学土木工程学系主任(1995-1998)                                                                                                     

台湾大学工学院院长(1999-2005)

台湾地震工程研究中心地震模拟实验室组长(1990-1995)

台湾大学土木工程学系教授(1988-2014)



·研究方向

长期从事以力学为核心的结构工程问题之研究,主要以有限元为工具。所领导之研究群曾开发多个软件,特别是桥梁静力和高铁振动分析方面的,供台湾数个工程顾问公司使用。1992年起对台北市圆山桥、西藏大桥进行静力、动力监测工作。所属专长研究领域包括:桥梁、结构非线性力学、车辆/桥梁互制动力理论、结构稳定性、高速铁路和列车波动传播分析法。


团队在研项目

1城市地铁运行对超高层建筑施工、安全影响及响应特征分析,重庆市科技计划项目(2014-2017);

2新的滤波技术在桥梁间接测量法中的应用,教育部重点实验室开放课题(2016-2017);

2中国建筑业信息化发展战略研究,中国工程院咨询研究项目(2017-2018);

3以移动车辆为基底的桥梁动态量测之理论与实践,国家自然科学基金面上项目(2017-2020);

4基于车桥耦合的非传统桥梁模态参数识别,院士牵头科技创新引导专项(2018-2020)。

·主讲课程
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·学术兼职
   中华工程教育学会(IEET)认证委员会主任委员、国际SCI期刊International Journal of Structural Stability and Dynamics (IJSSD)主编、多个SCI期刊的编委、及两个国际学术组织的主席:Asian-Pacific Association of Computational Mechanics (APACM)和East Asia-Pacific Conference on Structural Engineering and Construction (EASEC)。
   曾任云林科技大学校长、台大工学院院长、土木系主任、国科会土木学门召集人、及下列学会理事长:台湾中华工程教育学会(IEET)、土木水利工程学会、力学学会、结构工程学会。获台湾国科会杰出研究奖五次、特约研究员两次、教育部教学特优奖、杰出人才基金会讲座、十大杰出青年、和下列学会会士(Fellow):美国土木工程师学会(ASCE)、国际计算力学学会(IACM)、台湾土木水利工程学会、力学学会、结构工程学会。
   2002年起即为中华工程教育学会(IEET)要角之一,以IEET为平台,建立了台湾工程教育认证制度,致力于工科教学品质之提升,也让IEET于2007年和2014年顺利成为华盛顿签署组织(Washington Accord)和雪梨签署组织(Sydney Accord)的一员,完成与国际教育主流体系接轨,目前IEET认证制度仍在持续发展茁壮中。

   曾在下列大学担任访问或客座教授:新加坡国立大学、香港城市大学、香港科技大学、北京清华大学、大连理工大学、University of Queensland、University of New South Wales等。

 

1  总主编:International Journal of Structural Stability and Dynamics

编委:Journal of Sound and Vibration 

编委:Engineering Structures

编委:Structural Engineering and Mechanics

编委:Advanced Steel Construction

2  担任两个国际学术组织的主席:Asian-Pacific Association of Computational Mechanics (APACM)和East Asia-Pacific Conference on Structural Engineering and Construction (EASEC)。

3  2002年起即为中华工程教育学会(IEET)主要成员之一,以IEET为平台,建立了台湾工程教育认证制度,致力于工科教学品质之提升,也让IEET于2007年和2014年顺利成为华盛顿签署组织(Washington Accord)和悉尼签署组织(Sydney Accord)的一员,完成与国际教育主流体系接轨。

4  曾任下列学会理事长:台湾中华工程教育学会(IEET)、土木水利工程学会、力学学会、结构工程学会。

5  曾在下列大学担任访问或客座教授:新加坡国立大学、香港城市大学、香港科技大学、北京清华大学、大连理工大学、University of Queensland、University of New South Wales等。


2014年起发表之论文:

1.Zhou, B., Xie, X. Y., and Yang, Y. B., Simulation of wave propagation of floating slab track-tunnel-soil system by a 2D theoretical model, Int. J. Struct. Stability & Dyn., 2014, 14(1), 1350051.

2.Yang, Y. B., Li, Y.C., and Chang, K.C., Constructing the mode shapes of a bridge from a passing vehicle: a theoretical study, Smart Structures & Systems, An Int. J., 2014, 13(5), 797-819.

3.Zenz, G., Gerstmayr, J., Nachbagaur, K., Shih, M. H., and Yang, Y. B., Identification of system properties in a square frame: numerical and experimental investigations, Int. J. Struct. Stability & Dyn., 2014, 14(6), 1450017.

4.Peng, J. L., Ho, C. M., Chen, C. Y., Yang, Y. B., Experimental study on load capacities of isolated heavy-duty scaffolds used in construction, Int. J. Adv. Steel Construction, 2014, 10(3), 248-273.

5.Yang, Y.B., and Yau, J. D., Vertical and pitching resonance of train cars moving over a series of simple beams, J. Sound and Vibr., 2015, 337, 135-149.

6.Yang, Y. B., Hung, H. H., Lin, K. C., and Cheng, K. W., Dynamic response of an elastic half space with cavity subjected to P and SV waves by the finite/infinite element approach, Int. J. Struct. Stability & Dyn., 2015, 15(7), 1540009.

7.Fu, J. Wu, Y., and Yang Y. B., Effect of reinforcement strength on seismic behavior of concrete moment frames, Earthq. & Struct., 2015, 9(4), 699-718.

8.Wu, Y., Jiang, K., Yang, Y. B., and Li, Y., Comparative study on performance-based seismic design of RC tall buildings beyond code limits in China and United States, J. Building Struct., 2015, 36(2), 19-26 (in Chinese).

9.Fu, X., Li, H. N., and Yang, Y. B., Calculation of rain load based on single raindrop impinging experiment and applications, J. Wind Eng. and Industrial Aerodyn., 2015, 147, 85-94.

10.Yang, Y. B., and Chen, W. F., Extraction of bridge frequencies from a moving test vehicle by stochastic subspace identification, J. Bridge Eng., ASCE, 2016, 21(3), 04015053.

11.Kuo, S. R., Yang, J., and Yang, Y. B., A novel approach for buckling analysis of pretwisted spatially curved beams by state equations, Int. J. Struct. Stability & Dyn., 2016, 16(5), 1550011.

12.Zeng, Q., Yang, Y.B., and Dimitrakopoulos, E. G., Dynamic response of high speed vehicles and sustaining curved bridges under conditions of resonance. Eng. Struct., 2016, 114, 61-74.

13.Lin, K. C., Hung, H. H., Yang, J. P., and Yang, Y. B., Seismic analysis of underground tunnels by the 2.5D finite/infinite element approach, Soil Dyn. and Earthq. Eng., 2016, 85, 31-43.

14.Yang, Y. B., and Kang, J. H., Exact deformation of an infinite rectangular plate with an arbitrarily located circular hole under in-plane loadings, Struct. Eng. and Mech., 2016, 58(5), 783-797.

15.Hou L., Li, X., Yang, Y. B., and Li, H. N., Damage detection of structures for ambient loading based on cross correlation function amplitude and SVM, J. Shock & Vibr., 2016, 3989743.

16.Wu, Y. T., Kang, D. Y., and Yang, Y. B., Seismic behavior of composite walls with encased steel truss, Steel and Compos. Struct., 2016, 22, 449-472.

17.Wu, Y. T., Kang, D. Y., and Yang, Y. B., Seismic performance of steel and concrete composite shear walls with embedded steel truss for use in high-rise buildings, Eng. Struct., 2016, 125, 39-53.

18.Yang, Y. B., and Kang, J. H., Deformation of a rectangular plate with an arbitrarily located circular hole under in-plane pure shear loading, Struct. Eng. & Mech., 2016, 60(2), 351-363.

19.Kuo, S. R., Yang, J. P., and Yang, Y. B., A qualified plate theory for rigid rotation in post-critical nonlinear analysis, Mech. Adv. Materials & Struct., 2016, 10.1080/15376494.2016.1218228.

20.Yin, S. H., and Yang, Y. B., Finite element analysis of an infinite beam on a viscoelastic foundation subjected to a moving vehicle, Int. J. Struct. Stability & Dyn., 2017, 17(4), 1750045. 

21.Yau, J. D., Yang, J. P., and Yang, Y. B., Wavenumber-based technique for detecting slope discontinuity in simple beams using the moving test vehicle, Int. J. Struct. Stability & Dyn., 2017, 17(6), 1750060.

22.Yang, Y., Yang, Y. B., and Chen, Z. X., Seismic damage assessment of RC structures under shaking table tests using the modified direct stiffness calculation method, Eng. Struct., 2017, 131, 574-586. 

23.Wu, Y. T., Zhang, J., Yang, Y. B., Ye, P., and Xiao, Y., Seismic performance of reinforced concrete squat walls with embedded cold-formed and thin walled steel truss, Eng. Struct., 2017, 132, 714-732.

24.Yang, Y. B., Liang, X., Hung, H. H., and Wu, Y. T., Comparative study of 2D and 2.5D responses of long underground tunnels to moving train loads, Soil Dyn. & Earthquake Eng., 2017, 97, 86-100.

25.Yang, Y. B., and J. H. Kang, Stress analysis of an infinite rectangular plate perforated by two unequal circular holes under bi-axial uniform stresses, Struct. Eng. & Mech., 2017, 61(6), 747-754. 

26.Lin, S. Y., Hung, H. H., Yang, J. P., and Yang Y. B., Seismic analysis of twin tunnels by finite/infinite element approach, Int. J. Geomech., ASCE, 2017, 17(9), 1-1.

27.Yang, Y. B., and Yau, J. D., Resonance of high-speed trains moving over a series of simple or continuous beams with non-ballasted tracks, Eng. Struct., 2017, 143, 295-305.

28.Liao, M. M., Chen, F., Chen, Z. H. and Yang, Y. B., A weak-form quadrature element formulation for 3D beam elements used in nonlinear and postbuckling analysis of space frames, Eng. Struct., 2017, 145, 34-43.

29.Wu, Y.T., Lan, T.Q., Xiao, Y., and Yang, Y.B., Macro-modeling of reinforced concrete structural walls: state-of-the-art, J. Earthquake Eng., 2017, 21(4), 652-678.

30.Liang, X. J., Yang, Y. B., Ge, P. B., Hung, H. H., and Wu, Y. T., On computation of soil vibrations due to moving train loads by 2.5D approach, Soil Dyn. and Earthquake Eng., 2017, 101, 204-208.

31.Li, G., Dong, Z. Q., Li, H. N., and Yang, Y. B., Seismic collapse analysis of concentrically-braced frames by the IDA method, Adv. Steel Construction – Int. J., 2017, 13(3), 273-293.

32.Yang, Y. B., and Kang, J. H., Vibrations of a composite shell of hemiellisoidal-cylindrical shell having variable thickness with and without a top opening, Thin-Walled Struct., 2017, 119, 677-686.

33.Yang, Y. B., and Yang, J. P., State-of-the-art review on modal identification and damage detection of bridges by moving test vehicles, Int. J. Struct. Stability & Dyn., 2018, 18(2), 1850025 (31 pages).

34.Yang, Y.B., Zhang, B., Qian, Y. and Wu, Y. T., Contact-point response for modal identification of bridges by a moving vehicle, Int. J. Struct. Stability & Dyn., 2018, 18(5), 1850073.

35.Li, Y. F., Chen, Z. H., Yang, Y. B., Chen, F., and Liao, M. M., Buckling and post-buckling analysis of arches based on rigid body rule and GDC method, China Civil Eng. J., accepted April 25, 2017 (in Chinese).

36.Cheng, X., Chen, H., Gong, Y. Q., and Yang, Y. B., Stocky thin- or thick-walled beams: theory and analysis, Eng. Struct., 2018, 159, 55-65.

37.Yang, Y. B., and Kang, J. H., Vibration and buckling analysis of a rotating annular plate subjected to a compressive centrifugal body force, Int. J. Struct. Stability & Dyn., 2018, 18(7).

38.Zhang, B., Qian, Y., Wu, Y. T., and Yang, Y. B., An effective means for damage detection of bridges using the contact-point response of a moving test vehicle, J. Sound & Vibr., 2018, 419, 158-172.

39.Yang, Y. B., Ge, P. B., Li, Q. M., Liang, X. J., and Wu, Y. T., 2.5D vibration of railway-side buildings mitigated by open or infilled trenches considering rail irregularity, Soil Dyn. and Earthquake Eng., 2018, 106, 204-214.

40.Yang, Y. B., Li, M., Zhang, B., Wu, Y. T., and Yang, J. P., Resonance and cancellation in torsional vibration of monosymmetric I-sections under moving loads, Int. J. Struct. Stability & Dyn., 2018, 18(9), 1850111.

41.Wu, Y., Kang, D., Gao, L., Su, Y., and Yang, Y. B., Seismic behavior of bolted endplate connection between steel reinforced concrete (SRC) wall and SRC beam for use in high-rise buildings, Int. J. Civ. Eng. 2018, DOI: 10.1007/s40999-018-0296-x.

42.Wang, Z. L., Xu, Y. L., Li, G. Q., Yang, Y. B., Chen, S. W., and Zhang, X. L., Modeling and validation of coupled high-speed maglev train-and-viaduct systems considering support flexibility, Vehicle Syst. Dyn., 2018, DOI: 10.1080/00423114.2018.1450517.

43.Wu, Y.T., Zhou, Q., Wang, B., Yang, Y.B., and Lan, T.Q., Seismic collapse safety of high-rise RC moment frames supported on two ground levels, Earthq. & Struct., 2018, 14(4), DOI: 10.12989/eas.2018.14.4.000.

44.Yang, Y. B., Zhang, B., Qian, Y., and Wu, Y. T., Further revelation on damage detection by IAS computed from contact-point response of moving vehicle, Int. J. Struct. Stability & Dyn., 2018, 18(11), DOI: 10.1142/S0219455418501377. 

45.Hu, Y., Yang, C. B., Teh, L., and Yang, Y. B., Reduction factors for stainless steel bolts at elevated temperatures, J. Constr. Steel Research, 2018, 148:198-205.


·主要成果
所属专长研究领域包括:结构非线性理论、车辆/桥梁互制动力理论、和列车波动传播分析法,曾在上述领域各出版一本英文专著:
1.Theory and Analysis of Nonlinear Framed Structures (1994, Prentice-Hall, 合著者:郭世荣)。
2.Vehicle-Bridge Interaction Dynamics—with Applications to High-Speed Railways (2004, World Scientific, 合著者:姚忠达、吴演声)。
3.Wave Propagation for Train-Induced Vibrations - A Finite/Infinite Element Approach (2009, World Scientific, 合著者:洪晓慧)。
至目前为止,已经发表3本英文专著,国内外期刊论文180余篇,国内外会议论文250余篇,各类报告110余种。
·获奖情况


 

台湾十大杰出青年,国科会杰出研究奖五次、特约研究员两次,教育部教学特优奖,杰出人才基金会讲座,ASCE Fellow,IACM Fellow,台湾土木水利工程学会、力学学会、结构学会会士(Fellow),Munro Prize (Engineering Structures); Best Paper Award (Advances in Structural Engineering),Tsuboi Award (IASS),ICACM Award (ICACM), Nishino Medal (EASEC),地震工程杰出贡献奖,国际华人计算力学奖等。


·研究生培养
-已培养硕士6名,在读硕士研究生9名、在读博士研究生7名、博后4名
·联系方式
硕博招生联系邮箱:liusj304@cqu.edu.cn