【摘要】 为研究预制混凝土剪力墙(PCSW)隔震结构的抗震性能,设计了1个1/4缩尺结构模型,通过改变边界条件形成两种结构,分别为PCSW隔震结构及非隔震结构,并对其进行振动台试验。通过对结构动力特性和地震反应的对比分析,研究了PCSW隔震结构的减震效果和耗能特性。结果表明:高阻尼隔震支座具有较小的水平刚度,降低了PCSW隔震结构的自振频率;高阻尼隔震支座具有良好的耗能性能,提高了PCSW隔震结构的阻尼比;随着输入峰值加速度的变化,PCSW隔震结构的频率和阻尼比具有良好的稳定性;PCSW隔震结构的加速度、层间位移、基底剪力隔震效果明显;在输入峰值加速度400 gal时,顶层绝对加速度减震率达65%,顶层层间位移减小率达60%,基底剪力隔震率达48%;随着输入峰值加速度的增大,PCSW隔震结构的基底剪力隔震率呈增加趋势。更多还原

【Abstract】 In order to investigate the seismic properties of precast concrete shear wall( PCSW) isolation structure,a1 /4 scale shaking table test was designed and conducted. The structure with high damping rubber bearings( HDRB)and that without HDRB were called PCSW isolation structure and non-isolation structure,respectively. The dynamic properties and structural responses of the two structures were compared. The experimental results indicate that the frequencies of PCSW isolation structure are less than those of the PCSW non-isolation structure due to the low lateral stiffness of the HDRB; the damping ratios of PCSW isolation structure are bigger than those of the PCSW non-isolation structure due to the high damping property of HDRB. With the increase of peak ground accelerations,the frequencies and damping ratios of the PCSW isolation structure change slightly,and the earthquake responses of PCSW isolation structure are less than those of the PCSW non-isolation structure. The control effect on acceleration,displacement,and shear force is remarkable. When peak ground acceleration is 400 gal,the top story absolute acceleration isolation ratio is 65%,the top story inter-story drift isolation ratio is 60%,and the base shear force isolation ratio is 48%. The base shear force isolation ratio increases nonlinearly along with the increase of peak ground acceleration.更多还原