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Sharif

, 28:18

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بررسی‌ اثر برهم‌کنش سینماتیک خاک و سازه در بار‌گذاری لرزه‌یی سازه‌ها بخش دوم: حرکت‌های ورودی پی‌‌

  • M. R. Falamarz-SheikhabadiAffiliated withInternational Institute of Earthquake Engineering and Seismology Tehran
  • , M. Ghafory-AshtianyAffiliated withInternational Institute of Earthquake Engineering and Seismology Tehran Email author 

EVALUATION OF THE EFFECTS OF KINEMATIC SOIL STRUCTURE INTERACTION ON SEISMIC LOADING OF STRUCTURES PART II: FOUNDATION INPUT MOTIONS

Abstract

As seismic waves pass through foundations, high frequency waves of free-field motions will be filtered by them. To obtain these filtered motions, called foundation input motions (FIMs), the effects of kinematic interaction between the foundation and surrounding medium, due to the spatial variation of earthquake ground motion (SVEGM), should be considered. For the structures supported on the large mat foundations, considering the effects of kinematic soil structure interaction may lead to filtering of the high-frequency components of the translational response and significant rotational motions. Therefore, the contribution of rotational components may be detrimental in the seismic response of structures, such as vertically irregular structures, shortperiod (stiff) structures such as nuclear reactors, and even secondary systems or equipment mounted on structures that are sensitive to high frequency components of motion.

The main objective of this paper is to present a new procedure for evaluating all six input components of structures supported on two foundation systems: rigid mat and single foundations. To achieve this objective, at first, the transfer functions of foundation input motions are derived. Then, a parametric study is performed on the rigid mat foundation system, in order to estimate the effects of the geometrical shape of such a foundation system on the foundation input motion. Moreover, a numerical study is performed on the two different foundation systems; mat and single, in order to compare relations between input rotational and translational components in the structural loading. The results imply that the input translational and torsional accelerations of structures with rigid oor diaphragms, which are supported on the single foundation system, are approximately equal to the same structures with rigid mat foundation systems.

Key Words

rotational components, phase velocity principal axes coherency kinematic interaction