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Test mold for corrosion of reinforced concrete and stress monitoring method for corrosion process

A technology for reinforced concrete and testing molds, applied in the direction of measuring force, measuring devices, and material analysis through optical means, can solve the problems of heavy crack collection workload, difficult to capture micro-cracks, and large manpower and material resources, and achieve the measurement environment. Low vibration isolation requirements, short test period, and convenient erection

Pending Publication Date: 2018-07-27
QINGDAO TECHNOLOGICAL UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0008] Although the above existing methods can obtain information on cracks in reinforced concrete structures, they require a lot of manpower and material resources, and are limited to the image of external factors such as terrain and location. It is even more difficult to capture micro-cracks caused by fires and bursts. The method of macroscopic fracture mechanics for mechanical analysis and safety assessment of damaged concrete structures requires an accurate description of the crack information in various stages of the concrete structure, and then establishes a mechanical analysis model. However, the traditional crack collection workload is large and the collection The information is rough

Method used

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  • Test mold for corrosion of reinforced concrete and stress monitoring method for corrosion process
  • Test mold for corrosion of reinforced concrete and stress monitoring method for corrosion process
  • Test mold for corrosion of reinforced concrete and stress monitoring method for corrosion process

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Embodiment 1

[0048] Such as Figure 1-7 Shown, the present invention provides a kind of test mold of reinforced concrete corrosion and the stress monitoring method of corrosion process, and test mold comprises:

[0049] Die groove 1, described mold groove 1 is cuboid, and described mold groove 1 upper opening, interior is provided with cavity;

[0050] The baffle, the baffle is arranged in the cavity of the mold groove 1, and the baffle includes a first baffle 102 and a second baffle 101; the first baffle 102 is fixedly arranged in the mold groove 1 One end of the mold groove 1, the second baffle plate 101 is fixedly arranged at the other end of the mold groove 1, and a space is reserved between the first baffle plate 102 and the inner side wall of one end of the mold groove 1, and the second baffle plate 101 is close to the mold groove 1. The inner wall of the other end of the mold groove 1;

[0051] Steel bar test piece 2, the steel bar test piece 2 is located in the cavity of the mold...

Embodiment 2

[0073] Such as Figure 8-9 As shown, in this embodiment, in order to accelerate the corrosion rate of the reinforced concrete specimen, the solution and the stainless steel sheet are set in the reinforced concrete specimen, and the specific method is as follows:

[0074] Step 1, first place a conductive stainless steel sheet in the groove of the specimen formed during the fabrication of the reinforced concrete specimen;

[0075] Step 2, adding a solution that can accelerate the corrosion rate of the reinforced concrete specimen in the groove of the specimen above the stainless steel sheet;

[0076] Step 3, connect the cathode of the power supply on the stainless steel sheet, and connect the anode of the power supply on the surface of the reinforced concrete specimen, thus forming a closed loop of electric acceleration effect.

[0077] The added solution accelerates the corrosion rate of reinforced concrete. In addition, adding an external power supply to the stainless steel s...

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Abstract

The invention provides a test mold for corrosion of reinforced concrete and a stress monitoring method for a corrosion process. The stress monitoring method comprises the following steps: firstly, producing an experimental test mold which takes a concrete test sample with reinforcing steel bars as a main part, wherein a micro-strain gage with a wire is arranged inside the reinforcing steel bar; secondly, enabling a CCD camera and a strain acquisition instrument to be communicated for respectively monitoring the outer part and the inner part of a reinforced concrete specimen; obtaining a strainvalue of the reinforced concrete specimen by processing and conversing of a digital image correlation system. The monitoring method has the advantages of lower requirements on measuring environment and vibration isolation, high controllability and short cycle of finishing single test; the reinforced concrete specimen has the advantages of easiness in processing and preparation, small occupied space, low cost and simple preparation; in addition, full-field real-time monitoring of the corrosion in the whole life cycle of a reinforced concrete specimen structure can be carried out, and an overall macroscopic model can be obtained. The stress monitoring method for the corrosion process, disclosed by the invention, can be carried out in a laboratory, or can be combined with engineering practice for real-time monitoring, and provides a novel measurement method for structural safety evaluation.

Description

technical field [0001] The invention belongs to the technical field of monitoring the corrosion process of reinforced concrete, and relates to a monitoring method, in particular to a test mold for the corrosion of reinforced concrete and a stress monitoring method in the corrosion process. Background technique [0002] At present, there are the following methods for non-destructive testing in the corrosion process of reinforced concrete: manual observation method, ultrasonic detection method, radar detection method, acoustic emission (AE) detection method, infrared thermal image detection and optical measurement method, etc., as follows: [0003] The manual observation method is to draw the visual inspection results into a sketch, and measure the crack width with a crack scale and a magnifying glass, which requires a lot of manpower and time, and the accuracy is not high; [0004] Ultrasonic detection method is to reflect the compressive strength of concrete by using the rel...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01L1/22G01N21/84
CPCG01L1/22G01N21/84
Inventor 金祖权王潇舷姜玉丹张良杜丰音康悦曹杰荣
Owner QINGDAO TECHNOLOGICAL UNIVERSITY
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