SU1270662A1 - Method of measuring moisture content in capillary-porous materials - Google Patents

Abstract

This invention relates to a measurement technique. Its purpose is to improve the accuracy and speed of measurement. The method for measuring the humidity of capillary-porous materials consists in creating a voltage between the electrodes and measuring the electrical conductivity of the material under study. The change in electrical conductivity is measured at points 0 m away from the electrodes, where L is the distance between the electrodes; d is the diameter of the electrode, and the voltage is determined when the specified difference in values of electrical conductivities is reached, which is used to judge the moisture content of the material. The method allows to optimize the mode of heat treatment of claydite concrete products, which reduces the tempering moisture of the product W and reduces the heat treatment time. I zp f-ly.

Description

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Claims (2)

vl The invention relates to a measurement technique and can be used to measure the moisture content of capillary-porous materials, such as concrete mixtures and products in the building materials industry. The purpose of the invention is to improve the accuracy and efficiency of measuring the humidity of capillary-porous materials. Two electrodes are installed on the surface of the material under test, each with opposite sign and increasing in time potential. Under the action of electric potential, water migrates from one electrode to another. As a result, the amount of moisture in one of the electrodes increases, while that of the other decreases. Changes in the moisture content gradient of both electrodes under the action of varying potential correlate well with the moisture content of a capillary-porous body. This allows one to measure the humidity by the change in the electrical conductivity of one of the electrodes relative to the change in conductivity of the other electrode, for which, in the vicinity of each of the potential electrodes, electrical conductivity sensors are included that are connected in a differential circuit and measure the change in conductivity. The electrical conductivity is measured at a distance of 0.5L, where L is the distance between the electrodes; d is the diameter of the electrode. The maximum distance — less than half the interelectrode space (0.5L I) —is determined by the fact that the boundary of the redistribution of moisture is a distance 0.5L. The minimum distance (15 d) is determined by the partial hydrolysis of water at the surface of the electrodes and the influence of edge effects, i.e. distortion of the electric field near the electrodes. In the interval 0, the intensity of the electric field varies linearly with a change in the distance. The rate of change of voltage depends on the initial humidity and the capillary-porous structure of the material and is 0.1-0.01 V / s. The maximum velocity (0.1 V / s) is the upper limit of the linear dependence of the velocity of moisture flux on the rate of voltage change for the capillary-porous materials under study. At a higher rate of voltage growth, this linear relationship is broken. Reducing the rate of voltage rise to less than 0.01 V / s significantly increases the measurement time and is therefore impractical. Example. Two electrodes are placed on the surface of the material under investigation at a fixed distance from each other, to which slowly increasing electric potentials of opposite sign are applied. Each of the electrodes is equipped with electrical conductivity sensors, which are connected in a differential circuit, and the change in the conductivity of the material is measured in the process of changing the potential at the electrodes. When a certain predetermined conductivity difference is reached, the voltage at the potential electrodes is measured and the moisture content of the test material is judged according to the calibration schedule. The proposed method is used to measure the moisture content of products from lightweight expanded clay. For this, two electrodes are placed on the surface of the product 100 mm apart. They are supplied with potentials of a different sign, increasing in amplitude with a speed of 0.02 V / s (1.2 V / min) k. At the same time, the change in conductivity (electrical resistance) of a material is measured by two sensors of electrical conductivity at a distance of 10 mm from each of the electrodes . When a difference in resistance (conductivity) of 10 ohms is reached, the voltage across the electrodes is measured. According to the previously obtained dependence, the humidity of the products is determined. The proposed method is used to optimize the mode of heat treatment of products from lightweight expanded clay concrete, which reduces the output moisture of products by 6-8% and shortens the time of heat treatment by 1-1.5 hours. Claim 1. Method for measuring the moisture of capillary-porous materials, consisting of 12706 in the creation of voltage between the electrodes, between which the material under study is located, and its measurement. electrical conductivity, which is the fact that, in order to increase the accuracy and efficiency of measurement, the voltage across the electrodes is evenly increased, the change in electrical conductivity is measured at points spaced from the electrodes by distances of 0, 624 between electrodpmi; . d is the diameter of the electrode, and the voltage on the electrodes is determined when the specified difference in values of electrical conductivities is reached, which is used to judge the moisture content of the material. 2. Method pop. 1, distinguished by the fact that the voltage on the electrodes is increased evenly at a rate of 0.1-0.01 V / s.