Abstract
Concrete age is the time since the moment water is added to the cement, and the age of concrete comprehensively reflects the physical properties of the concrete when curing under standard conditions. For concrete under nonstandard conditions, its physical properties are directly related to both its age and temperature history. The equivalent age of concrete is the time at which concrete under nonstandard conditions reaches the same state as concrete under standard conditions. Most equivalent methods, such as the Nurse-Saul function and the Arrhenius function, are based on a maturity index. However, the accuracy of these methods breaks down when the curing temperature range is wide. In this paper, the electrical resistivity of concrete is used as the index to determine the equivalent age of concrete. This method is based on the assumption that concrete with the same mixture proportions has the same electrical resistivity when the maturity of the concrete is the same, regardless of the curing history. The proposed method is advantageous because it can be performed in real time and is nondestructive. To constantly measure the electrical resistivity of concrete, an automatic data acquisition system is developed to monitor the electrical resistivity of concrete and reduce the error caused by polarization as much as possible. Then, a model for predicting the electrical resistivity of concrete under different curing temperatures is proposed to conveniently calculate the equivalent coefficient. Finally, the results calculated by the proposed equivalent method are compared with those of the standard method (Nurse-Saul equation), and the results of the proposed model are found to be more reasonable.
Highlights
100 uA 1 Ω differ, but the equivalent concrete age can be obtained through conversion
A concrete equivalent age method based on concrete electrical resistivity is proposed
The method is implemented by measuring concrete resistivity and modifying the effect of temperature using the resistivity development curve under standard curing conditions
Summary
The testing methods for concrete resistivity are mainly divided into two-, four-, and no-electrode m ethods[45,46,47,48]. In accordance with the purpose and requirements of this test, the direct current (DC) diode method with two electrodes is selected to measure the electrical resistivity of concrete. The system can test the electrical resistivity of concrete quickly, accurately and in real time and consists of a data acquisition device, automatic control system and temperature control system. The data acquisition device is an intelligent resistivity meter that can automatically adjust the test range of resistance to ensure the accuracy of the result. According to previous research, during concrete testing, concrete exhibits the polarization phenomenon, which leads to a negative resistance value in one d irection[49,50]. The average of the resistance values in two directions in the concrete is used to represent the overall resistivity This usage requires the test system to automatically implement reverse measurements. The measuring electrode is composed of an aluminum plate with a size of Scientific Reports | (2021) 11:21720 |
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