关键词: 超大跨斜拉桥, 桩基础, 沉井基础, 大质量承台, 动力特性, 地震反应

Abstract: Based on a super-span cable-stayed bridge over Yangtze River,which is planned with two optional pylon foundation forms: caisson and pile,modal participating mass ratio distribution and modal period distribution of free structural vibration modes involving distinct horizontal participation of the under-pylon huge-mass pile caps are studied by contrast.Artificial ground motions are applied in linear time-history analysis to calculate the controlling seismic responses of the bridge structure with caisson-form pylon foundations and alternative pile-form ones,then the results of the two cases are compared at the same structural locations;and in the horizontal directions the contribution of the under-pylon huge-mass pile caps to the cap bottom seismic reactions are analyzed in time domain as well as frequency domain.The research indicates that participation of the under-pylon huge-mass pile caps in high-order structural vibration modes essentially influences the dynamic properties and seismic responses of the super-span cable-stayed bridge,and sharply magnifies the horizontal seismic foundation reactions at the pylon cap bottoms compared with the case of caisson-form pylons foundations,which increases the seismic vulnerability of the super-span cable-stayed bridge.

Key words: super-span cable-stayed bridge, pile foundation, caisson foundation, huge-mass pile cap, dynamic properties, seismic response