Measurement method for testing incremental internal force of arch bridge suspension rod using inertia method

Provided are a measurement method for testing the incremental internal force of an arch bridge suspension rod using an inertia method, the measurement method comprising the following steps: (1) selecting a suspension rod which needs to be tested for incremental internal forces, and mounting an accel...

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Hauptverfasser: Jiejun Ning, Zehua Xie, Mengsheng Yu, Hua Wang, Xiaoli Zhuo, Xi Peng, Longlin Wang, Kainan Huang, Tianzhi Hao, Yuhou Yang, Xirui Wang, Junhong Wu
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creator Jiejun Ning
Zehua Xie
Mengsheng Yu
Hua Wang
Xiaoli Zhuo
Xi Peng
Longlin Wang
Kainan Huang
Tianzhi Hao
Yuhou Yang
Xirui Wang
Junhong Wu
description Provided are a measurement method for testing the incremental internal force of an arch bridge suspension rod using an inertia method, the measurement method comprising the following steps: (1) selecting a suspension rod which needs to be tested for incremental internal forces, and mounting an acceleration sensing apparatus or a velocity sensing apparatus on the lower edge of the suspension rod to be tested; (2) setting an appropriate sampling frequency, and beginning signal acquisition; (3) using a formula to process the information data collected in step (2); (4) recording the results of information data processing to obtain the suspension-rod internal force increment. In the present invention, an acceleration or velocity signal is acquired from the lower edge of the suspension rod, and the suspension-rod internal force increment can be obtained by means of simple calculation of said signal, and the invention has the advantages of easy operation, high reproducibility, and low testing cost.
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subjects MEASURING
MEASURING FORCE, STRESS, TORQUE, WORK, MECHANICAL POWER,MECHANICAL EFFICIENCY, OR FLUID PRESSURE
PHYSICS
TESTING
TESTING STATIC OR DYNAMIC BALANCE OF MACHINES ORSTRUCTURES
TESTING STRUCTURES OR APPARATUS NOT OTHERWISE PROVIDED FOR
title Measurement method for testing incremental internal force of arch bridge suspension rod using inertia method
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