Progressive defective-cable and concentrated-load recognition method based on mixed monitoring during linear displacement

Abstract

The invention discloses a progressive defective-cable and concentrated-load recognition method based on mixed monitoring during linear displacement. According to the method based on mixed monitoring, whether to update mechanics calculation reference models of cable structures or not is determined by monitoring linear displacement of supports, temperature of the cable structures and environment temperature to acquire new mechanics calculation reference models, including the linear displacement of the supports, the temperature of the cable structures and the environment temperature, of the cable structures; numerical-value change matrixes of unit damage monitored amount are acquired through calculation on the basis of the new models; non-inferior solutions of current nominal damage vectors of evaluated objects are calculated according to approximate linear relationships between current numerical-value vectors of monitored amount and current initial numerical-value vectors of the monitored amount, the numerical-value change matrixes of the unit damage monitored amount as well as to-be-solved current nominal damage vectors of the evaluated objects, and thus influences of interference factors can be eliminated and concentrated-load variation and defective cables can be recognized on the conditions of linear displacement of the supports and temperature variation.

Description

technical field [0001] Cable-stayed bridges, suspension bridges, truss structures and other structures have one thing in common, that is, they have many parts that bear tensile loads, such as cable-stayed cables, main cables, slings, tie rods, etc. , cables, or rods that only bear tensile loads are supporting components. For the sake of convenience, this method expresses this type of structure as The rods under tension or axial compression loads (also known as two-force rods) are collectively referred to as "cable systems" for convenience, and the term "supporting cables" is used in this method to refer to bearing cables, bearing cables and A member that bears axial tension or axial compression load is sometimes referred to as a "cable", so when the word "cable" is used later, it actually refers to a two-force member for a truss structure. The damage and slack of supporting cables is a major threat to the safety of cable structures. In this method, damaged cables and slack ca...

AI Technical Summary

Problems solved by technology

[0005] When the support has a linear displacement, some of the currently disclosed technologies and methods can only identify the change of the structure's load when all other conditions remain unchanged (only the load on the structure changes), and some can only identify the change of the load on the structure under all other conditions. Recognizes changes in structural health when constant (only structural health changes) and some only recognizes structural (environmental) temperature and structural health while all other things are constant (only structural temperature and structural health change) State changes, there is currently no public and effective method that can simultaneously identify changes in structural load, structural (environment) temperature, and structural health status, or in other words, when the load on a structure and the structural (environment) temperature change simultaneously At that time, there is no effective method to identify the change of the structural health state, and the load on the structure and the structure (environment) temperature often change, so how to eliminate the load change when the l

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