SU1089510A1 - Method of determination of physical mechanical properties o light-weight concrete - Google Patents

Abstract

METHOD FOR DETERMINING LIGHT Veton physicomechanical properties, eakpyuchanitsiys that the stamp is pressed into concrete, acoustic emission signals were recorded and .vdavlivanie stopped when reaching a predetermined value of the amplitude of the acoustic emission signals, characterized in that, in order to increase accuracy, measured deformed volume of the material and energy spent on indentation, and monitored parameters are determined by the ratio of energy to the deformed volume.

Description

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The invention relates to non-destructive testing by acoustic emission method and can be used to control the quality of lightweight concrete.

A known method for determining the strength of concrete is that a stamp is pressed into the surface of the product and the strength is determined by calibration curves depending on the size of the received Cl3 imprint. The disadvantage of this method is low accuracy, because the measured indirect mechanical parameters of the indentation test are not ( reflect the features of the structure of lightweight concrete, affecting its properties.

The closest in technical essence to the present invention is the jo method of determining the physicomechanical properties of lightweight concrete, which means that the stamp is pressed into the concrete, acoustic emission signals are recorded, the impression is stopped when the specified amplitudes are reached; acoustic emission signals C2 J.

The disadvantage of this method is low accuracy, due to the fact that the final magnitude of the force of indentation, measured at the end of the test, does not sufficiently characterize the deformation energy expended during the test. At the same time, the volumetric work of deformation, spent on the test, representing the ratio of the deformation energy to the deformed volume of the material, can vary significantly with changing the density of the material and the quality of the light aggregate in the concrete, regardless of the final value of the indentation.

Q The purpose of the invention is to improve the accuracy of determining the physicomechanical properties of lightweight concrete.

The goal is achieved by those. that according to the method of determining the physicomechanical properties of the lungs

concretes, which imply that the stamp is pressed into the concrete, acoustic and emission signals are recorded and the indentation is stopped when the specified value is reached, and the acoustic emission signals are measured by the L1LIT, deformed material volume and energy spent for indentation are measured and the parameters to be monitored are determined by the ratio of energy to deformed volume.

The method is carried out as follows.

An acoustic emission transducer connected to the acoustic emission equipment is installed on the controlled product. A stamp is pressed in to reach a predetermined level of the measured and 1-peak acoustic emission characteristic, for example, the integral amplitude characteristic, which is determined in advance experimentally for a particular type and composition of lightweight concrete. When the integral amplitude characteristic of acoustic emission reaches a predetermined level, the indentation is stopped and the energy spent for the test is measured. Based on the test results, the volumetric work of deformation is calculated, depending on which the properties of lightweight concrete are determined from the calibration curves. The volumetric work of deformation when tested by pressing a punch to a defined one — the level of acoustic emission signals is calculated as the ratio of the energy expended during the test to the volume of the deformed material at the time of injection of the punch.

Thus, the proposed cio-system allows to improve the technological control of the quality of finished products from lightweight concrete in factory conditions, to improve their quality by increasing the amount of information received during testing of concrete and reflecting the structural features in direct relationship with the energy balance of destruction and deformation. lightweight concrete during testing.

Claims (1)

A METHOD FOR DETERMINING THE PHYSICAL AND MECHANICAL PROPERTIES OF LIGHT CONCRETE, which consists in pressing a stamp into concrete, recording acoustic emission signals and stopping the pressing when reaching a predetermined amplitude of acoustic emission signals, characterized in that, in order to increase accuracy, measure the deformed volume of material and energy spent on indentation, and the controlled parameters are determined by the ratio of energy to the deformed volume.