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Structure seismic sensitivity optimization method based on story drift angle constraint

A technology of interstory displacement and optimization method, which is applied in the direction of constraint-based CAD, earthquake resistance, building components, etc., can solve the problem of complex sensitivity analysis of the maximum interstory displacement angle

Active Publication Date: 2016-08-17
TONGJI UNIV ARCHITECTURAL DESIGN INST GRP CO LTD
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Problems solved by technology

However, under the response spectrum condition, the sensitivity analysis of component volume and component material cost to the maximum interstory displacement angle is relatively complicated, and it is necessary to consider the combination of seismic action effects

Method used

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  • Structure seismic sensitivity optimization method based on story drift angle constraint
  • Structure seismic sensitivity optimization method based on story drift angle constraint
  • Structure seismic sensitivity optimization method based on story drift angle constraint

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Embodiment Construction

[0086] The present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments. This embodiment is carried out on the premise of the technical solution of the present invention, and detailed implementation and specific operation process are given, but the protection scope of the present invention is not limited to the following embodiments.

[0087] A structural seismic sensitivity optimization method based on story displacement angle constraints, such as figure 1 shown, including steps:

[0088] 1) Set each lateral force-resistant component in a super high-rise building into multiple optimization groups, and extract the cross-sectional size and material properties of each component in each optimization group. The optimization group can be a separate component, or the components can be divided according to the following conditions To group:

[0089] a) Different types of components are set to different groups;

[0090] ...

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Abstract

The invention relates to a structure seismic sensitivity optimization method based on story drift angle constraint. The method includes the steps that 1, lateral load resisting members are set into multiple optimization groups; 2, modal analysis is conducted, the number of modes of vibration needing to be considered is determined and analyzed, and all orders of modal amplitude are calculated; 3, response spectrum analysis is conducted, and a maximum story drift angle and a modal story drift angle on the same layer are obtained; 4, virtual unit horizontal force is applied to all floors and defined as a working condition 1 to a working condition M (M is the sum of the floors), and virtual unit torque is applied to the layer where the story drift angle is maximum and defined as a working condition M+1; 5, the sensitivity coefficients of the sizes or material cost of all the members to the maximum story drift angle are calculated; 6, all the optimization groups are subjected to size weighted averaging, and the sensitivity coefficients of all the optimization groups to the maximum story drift angle are obtained; 7, the sizes of all the members in the optimization groups with the large sensitivity coefficients are increased, and the sizes of all the members with the small sensitivity coefficients are reduced. Compared with the prior art, the method has the advantages of reducing cost and the like.

Description

technical field [0001] The invention relates to the technical field of structural engineering, in particular to a structural seismic sensitivity optimization method based on interstory displacement angle constraints. Background technique [0002] Due to the demand for saving land in urban construction, the development of high-strength and lightweight materials, the improvement of design and construction technology, and people's desire for super-high landmark buildings, more and more super high-rise buildings appear. The structure of super high-rise buildings is slender and has the characteristics of high and flexible. Due to the high and flexible overall structure, the design of the main components is usually controlled by stiffness. Under the action of wind load or earthquake, super high-rise buildings need to control excessive deflection or deformation of structures or components to avoid damage to exterior walls and exterior decoration materials caused thereby. At presen...

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Application Information

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IPC IPC(8): G06F17/50E04B1/98E04H9/02
CPCE04B1/98E04H9/02G06F30/13G06F2111/04
Inventor 赵昕秦朗
Owner TONGJI UNIV ARCHITECTURAL DESIGN INST GRP CO LTD
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