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Nonlinear performance of classical damping 被引量:1

Nonlinear performance of classical damping
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摘要 The performance of a classical damping matrix, constructed either from the use of initial structural properties or current structural properties, in the step-by-step solution of a nonlinear multiple degree of freedom (MDOF) system is analytically evaluated. The analytical results are confirmed by numerical examples. Consequently, some conclusions are drawn from these analytical results that might be considered as rough guidelines for practical applications. It is found that a classical damping matrix constructed from initial structural properties is adequate for practical applications, since it has approximately the same damping effect as obtained by current structural properties and is more efficient in terms of computing. The performance of a classical damping matrix, constructed either from the use of initial structural properties or current structural properties, in the step-by-step solution of a nonlinear multiple degree of freedom (MDOF) system is analytically evaluated. The analytical results are confirmed by numerical examples. Consequently, some conclusions are drawn from these analytical results that might be considered as rough guidelines for practical applications. It is found that a classical damping matrix constructed from initial structural properties is adequate for practical applications, since it has approximately the same damping effect as obtained by current structural properties and is more efficient in terms of computing.
作者 Shuenn-Yih Chang
机构地区 Department of Civil Engineering
出处 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2013年第2期279-296,共18页 地震工程与工程振动(英文刊)
基金 Science Council,Taipei 106-08,Chinese Taipei,under Grant No. NSC-99-2221-E-027-029
关键词 classical damping nonlinear dynamic analysis integration method classical damping nonlinear dynamic analysis integration method
分类号 TU311.3 [建筑科学—结构工程]
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参考文献20

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  • 2G. Solari,G. Piccardo.Probabilistic 3-D turbulence modeling for gust buffeting of structures[J]. Probabilistic Engineering Mechanics . 2000 (1)
  • 3Virote Boonyapinyo,Tharach Janesupasaeree.Data-driven stochastic subspace identification of flutter derivatives of bridge decks[J]. Journal of Wind Engineering & Industrial Aerodynamics . 2010 (12)
  • 4Q.S. Li,Y.Q. Xiao,C.K. Wong.Full-scale monitoring of typhoon effects on super tall buildings[J]. Journal of Fluids and Structures . 2005 (5)
  • 5Ming Gu,Xian-Rong Qin.Direct identification of flutter derivatives and aerodynamic admittances of bridge decks[J]. Engineering Structures . 2004 (14)
  • 6Q.S. Li,Y.Q. Xiao,C.K. Wong,A.P. Jeary.Field measurements of typhoon effects on a super tall building[J]. Engineering Structures . 2003 (2)
  • 7Q. S.Li,J. Q.Fang,A. P.Jeary,C. K.Wong,D. K.Liu.Evaluation of wind effects on a supertall building based on full‐scale measurements[J]. Earthquake Engng. Struct. Dyn. . 2000 (12)
  • 8Q.S Li,D.K Liu,J.Q Fang,A.P Jeary,C.K Wong.Damping in buildings: its neural network model and AR model[J]. Engineering Structures . 2000 (9)
  • 9Robertson, A.P.,Moran, P.COMPARISONS OF FULL-SCALE AND WIND-TUNNEL MEASUREMENTS OF WIND LOADS ON A FREE-STANDING CANOPY ROOF STRUCTURE. Journal of Wind Engineering and Industrial Aerodynamics . 1985
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Earthquake Engineering and Engineering Vibration
2013年 第2期

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