Optimization of the lateral stiffness of shear wall in mid-highrise frame-shearwall structure with special-shaped columns;

Based on the stiffness matrix,the lateral stiffness of the column is presented.

In this paper, based on the behavior of special-shaped column, the "story shear model" is built, the story lateral stiffness is deduced and compared with the rectangular column frame structure.

The requirements on wall layout are emphasized in lateral resisting stiffness calculation.

This paper presents a series of modified beam-column linear-stiffness ratio coef-ficient α formulas ,based on anaysis of the horizontal lateral resisting stiffness of thousands of realframes.

For the steel frame structures, a study is carried out on the relationship between the lateral limit load capacity and the story lateral stiffness considering the vertical load s effect on the column s limit moment, P-Δ effect and yielding strength of steel.

The substructure method together with Gaussian elimination method are used to compute the generalized drift stiffness matrix of space tall building structures.

Optimal analysis for lateral stiffness of shear wall in mid-highrise RC frame-shearwall structure with special-shaped columns;

Optimal lateral stiffness of tall building based on initiative control;

Analysis of lateral stiffness influence on the prestressing force of frame;