CPC G01M 5/0008 (2013.01) [G01M 5/0041 (2013.01)] | 4 Claims |
1. A method for testing and evaluating lateral stiffness of small box girder bridges, comprising following steps:
collecting a deflection value of a measuring point based on a loading process of a loading vehicle by a deflection sensor;
obtaining an influence line of longitudinal bridge deflection of each measuring point based on the deflection value of the measuring point and an information matrix of the loading vehicle;
identifying an influence line of longitudinal bridge deflection by using Tikhonov regularization method; wherein, an expression of influence line of longitudinal bridge deflection identification is:
P=argmin[∥R−CP∥22+λ∥KP∥22], wherein P is an influence coefficient vector of influence line of longitudinal bridge deflection, R is a deflection response vector collected by the deflection sensor, C is the information matrix of the loading vehicle, λ is a regularization coefficient, and K is a regularization matrix;
using an interpolation method to fit and obtain an influence line of lateral bridge deflection of small box girder bridges based on the influence line of longitudinal bridge deflection;
wherein a process of obtaining the influence line of lateral deflection of small box girder bridges comprises:
obtaining two deflection influence lines at a same lateral position based on a primary longitudinal bridge loading and a secondary longitudinal bridge loading, and obtaining a final longitudinal bridge direction deflection influence line of a current measuring point by averaging the two deflection influence lines;
averaging respectively influence coefficients of the influence line of longitudinal bridge deflections of two deflection measuring points of a mid-span section and a bearing section of bridges to obtain the influence line of longitudinal bridge deflections of the mid-span section and the bearing section;
obtaining the influence line of lateral bridge deflection of the small box girder bridges by fitting the influence line of longitudinal bridge deflections of the bearing section, an eighth span section, a quarter-span section and the mid-span section;
carrying out stiffness evaluation based on the influence line of lateral bridge deflection of the small box girder bridges to obtain a stiffness evaluation result;
wherein before collecting the deflection value of the measuring point, a layout of the deflection sensor is also comprised, and a layout process of the deflection sensor comprises following steps:
respectively arranging two deflection measuring points on a bottom surface of each small box beam at the mid-span section of the bridges;
arranging one deflection measuring point on a bottom surface of each small box beam at the quarter-span section of the bridges;
arranging one deflection measuring point on a bottom surface of each small box beam at the eighth span section of the bridges;
respectively arranging two deflection measuring points on a bottom surface of each small box beam at the bearing section of the bridge;
arranging a radar speedometer at the quarter span and the mid-span of the bridges at a same time;
a process of collecting data based on a loading process sensor of the loading vehicle comprises:
the loading vehicle moving from one end edge of the bridges to another end edge along the longitudinal bridge direction to complete a longitudinal bridge direction loading;
then a loading position moving to another end along a lateral bridge, and after each movement, the loading position continues to moving along a longitudinal bridge direction until the loading position reaches an edge of the bridge in the longitudinal bridge direction to complete a secondary longitudinal bridge loading;
wherein when the secondary longitudinal bridge loading is completed, readings of the radar speedometer at the quarter span and the mid-span of the bridges are observed when a difference between the readings of speedometers at the quarter span and the mid-span is within 5%, a data collected by the sensor is valid.
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