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EXPERIMENTAL STUDY ON STEEL-LEAD VISCOELASTIC DAMPER

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ã€Authorã€‘ WU Cong-xiao,ZHOU Yun,DENG Xue-song(School of Civil Engineering,Guangzhou Universtiy,Guangzhou 510006,China)

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ã€Abstractã€‘ A new type steel-lead viscoelastic damper is developed,and its principle,configuration,characteristics are illustrated.The new type steel-lead viscoelastic damper model is tested under slow reversed cyclic horizontal loads.The non-linear hysteretic behavior of the SLVD is modeled to adopt the Bouc-Wen model and bilinear model.The results show that: 1) hysteretic curve of the steel-lead viscoelastic damper is slippery,and has good seismic energy dissipation capabilities;2) the lead core,steel core and viscoelsatic material plays an important part in energy dissipation of shear deformation,which can obviously increase the horizontal shear force,initial-stiffness and energy dissipation ability of the SLVD;3) the SLVD has no tear and creak phenomenon of the viscoelastic material in a large displacement case,and can recovery the initial position.It has good self-recovery function and large deformantion performance;4) the simulating hysteretic curves with Bouc-Wen model and bilinear model are identical to the test results,it is feasible to adopt the Bouc-Wen model and bilinear model to simulate the damper element in the analysis of a structure with the SLVD.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ steel-lead viscoelastic damper(SLVD)ï¼› hysteresis curveï¼› force modelï¼› energy dissipationï¼› skeleton curveï¼›

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