Cast-in-place concrete major-diameter pipe pile body strain monitoring method based on BOTDA

A large-diameter pipe and strain monitoring technology, used in measuring devices, instruments, material analysis by optical means, etc., can solve the problems affecting the integrity and strength of cast-in-place concrete large-diameter pipe piles, the complex operation of strain gauges, and the connection of strain gauges. There are many problems such as many lines, so as to achieve the effect of anti-high voltage and anti-interference ability, simple construction and wiring, and low cost.

Inactive Publication Date: 2014-03-26
HOHAI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Due to the complex installation and layout of strain gauges and low survival rate, continuous data on pile strain cannot be collected. At the same time, if too many strain gauges are embedded in the pile, multiple strain gauge data lines must be derived along the pile, which will affect the Integrity and strength of cast-in-place concrete large-diameter pipe piles, too many strain gauge connecting lines, and easy to knot

Method used

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  • Cast-in-place concrete major-diameter pipe pile body strain monitoring method based on BOTDA
  • Cast-in-place concrete major-diameter pipe pile body strain monitoring method based on BOTDA
  • Cast-in-place concrete major-diameter pipe pile body strain monitoring method based on BOTDA

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Embodiment

[0021] Embodiment: the cast-in-place concrete large-diameter pipe pile monitored in this embodiment is such as figure 1 As shown, the pile body 1 is included, and a pair of carrier reinforcement bars are embedded in the cast-in-place concrete of the pile body 1, and the carrier reinforcement bars include arc-shaped reinforcement bars 2 and a pair of vertical reinforcement bars 3 connected to each other. Such as figure 2 As shown, a pair of carrier steel bars are symmetrically arranged in the pile body 1 , and the tops of the vertical steel bars 3 are located at the top of the pile body 1 . Such as image 3 As shown, the sensing optical fiber 4 is fixed in the groove provided on the curved steel bar 2, and the groove is also filled with epoxy resin 5. Such as Figure 4 As shown, the end of the sensing fiber 4 is covered with a protective sleeve 6 .

[0022] When in use, the BOTDA-based method for monitoring the strain of the cast-in-place concrete large-diameter pipe pile ...

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Abstract

The invention discloses a cast-in-place concrete major-diameter pipe pile body strain monitoring method based on BOTDA. The cast-in-place concrete major-diameter pipe pile body strain monitoring method is characterized in that a pair of vertical reinforcing steel bars are connected with arc-shaped reinforcing steel bars with arcs which are 1/4 of the circumference of a pipe pile to form carrier reinforcing steel bars. Grooves are formed in the carrier reinforcing steel bars, sensor fibers are embedded in the grooves, and the grooves are filled with epoxy resin. The pair of carrier reinforcing steel bars with optical fibers in an embedded mode are embedded in the cast-in-place concrete major-diameter pipe pile. Short pulsed light and continuous probe light are injected from the two ends of the sensor fibers with the BOTDA method, and strain information of points in the axial directions of the sensor fibers is obtained by measuring frequency changes of stimulated brillouin scattering light in the sensor fibers. The cast-in-place concrete major-diameter pipe pile body strain monitoring method has the advantages of being simple in construction wiring, resisting to interference, being high in accuracy and the like.

Description

technical field [0001] The invention relates to a test method of a foundation structure, in particular to a BOTDA-based method for monitoring the strain of a cast-in-place concrete large-diameter pipe pile body. Background technique [0002] The cast-in-place concrete large-diameter pipe pile is a new type of pile developed in recent years. Because the side friction is increased by expanding the pile diameter, the circular section of the pipe pile has an advantage in terms of concrete consumption compared with other piles. , the single pile has a high bearing capacity, and under the same bearing capacity requirements, the economic benefits are the best, and it has both the advantages of the reinforcement effect of rigid piles and the reinforcement cost advantages of flexible piles. In addition, the cast-in-place concrete large-diameter pipe pile saves the cost of pile transportation and pile sinking, and has a strong ability to penetrate the soil layer. The superior engineer...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01B11/16G01N21/17
Inventor 高磊刘和文刘汉龙余湘娟
Owner HOHAI UNIV
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