Beam structure form reconstruction method based on optical fiber strain measurement

Abstract

The invention discloses a beam structure form reconstruction method based on optical fiber strain measurement. The method comprises the following steps: step 1, acquiring a section torsion angle of the tail end of a circular-section beam and arranging a plurality of measuring points in an axis direction of the circular-section beam to obtain the surface strain in the axis direction of the beam; step 2, calculating a beam section torsion angle corresponding to each measuring point, and carrying out strain decomposition by combining the surface strains obtained at the measuring points to obtaina surface strain generated by making bending deformation of the beam structure in two orthogonal directions perpendicular to the axial direction; step 3, according to the obtained orthogonal strain information, calculating bending deformation deflections of the beam in the two orthogonal directions respectively based on a Ko displacement theory, thereby completing three-dimensional form reconstruction. Compared with other spatial three-dimensional curve reconstruction methods, the disclosed method considers the influence of torsional deformation and has advantages of high calculation speed andhigh precision under the condition of small deformation.

Description

technical field [0001] The invention relates to the field of deformation measurement and shape reconstruction technology research of flexible structures, in particular to a beam structure shape reconstruction method based on optical fiber strain measurement. Background technique [0002] Deformation measurement and shape reconstruction of flexible structures are important foundations for structural force analysis and vibration control. In aerospace, civil engineering and other fields, the flexible beam structure is a typical structural form. Due to its complex working environment, combined deformation or vibration such as space bending and torsion is very easy to occur, which affects the performance of the entire system. It is of great significance for high-precision deformation measurement and morphological reconstruction. In the measurement, due to its light weight, small size, anti-electromagnetic interference, corrosion resistance, and small impact on the structure, fib...

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Problems solved by technology

However, for flexible beam structures with vibrations, the real-time requirements for deformation monitoring are higher, and faster calculation speeds are required. Such methods are often difficult to meet the requirements.

In addition, for a flexible structure with a circular substrate cross-section, multiple optical fibers arranged at circumferential intervals of 90° or 120° are often used to obtain the orthogonal curvature inform

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