SU1138688A1 - Concrete tension strength-testing - Google Patents

Abstract

METHOD FOR TESTING CONCRETE FOR STRENGTH WHEN TREATING, which consists of making samples by pouring the concrete mixture into a mold, stretching the mixture after the mixture is bent, stress and strain of the concrete are recorded and, according to the test results, its strength is different than that, in order to expand the possibilities of the method, by taking into account the work of the polymer concrete in the structures where it plays the role of a protective layer, before pouring into the mold, put up elastic piers that form samples of the type in the mixture The samples are stretched together with the walls to the specified values of deformations, then the samples are unloaded, the walls are reloaded, the samples are reloaded before fracture and the effect of the walls on the strength S of the polymer concrete is compared by comparing the results of loading the samples after removing the walls and the polymer sample made without prostankov.a

Description

The invention relates to the study of the strength properties of a material, in particular to methods for testing polymer concrete for tensile strength in structures where the polymer concrete serves as a protective layer. There is a known method for determining the tensile strength of concrete, which is that a sample of concrete is bent, a tensile stress is recorded, tensile stresses on the sample surface are calculated, and the test results show tensile strength of the DJ. The disadvantage of the method is low accuracy determine the strength of concrete, since the bending takes place inhomogeneous stress across the cross section of the sample. The closest to the proposed technical essence and the achieved result is the method of testing concrete for tensile strength, which consists in making samples by pouring the concrete mixture into a form, after the mixture is cured, the samples are stretched, and stress is recorded during loading and according to the results of tests, its strength is judged. In the method, the mold is stretched together with the sample. Through the contact surface of the sample and the mold, tensile forces are transmitted to the sample. 23 The disadvantage of this method is that it is impossible to determine the strength of polymer concrete under conditions close to the actual conditions of operation of metal structures protected by a layer of polymer concrete. development of deformations in polymer concrete. The purpose of the invention is to expand the possibilities of the method for determining the tensile strength of concrete by taking into account the operation of polymer concrete in structures where it serves as a protective layer. The goal is achieved. According to the test method: concrete for tensile strength, which consists in making samples by pouring the concrete mixture into a mold, after curing the mixture, the samples are stretched, stress and strain of the concrete are recorded at loading P 82 and test results judging its strength, before pouring into the mold, put the elongation walls, which form specimens of the eights type from the mixture, the specimens stretch together with the puncture walls to the specified strain values, then unload the specimens, remove the walls, Recreate ZTE loaded samples prior to failure and is judged on the effect of polymer prostenkrv strength by comparing the results of the stress of the samples after the removal of partitions and a reference polymer concrete sample prepared without partitions. FIG. 1 shows a scheme for implementing the method; in fig. 2 - a wall The method is carried out as follows. Resilient cores 1 are made from sheet material, for example steel, which are used in pairs to form eights. Stress sensors are glued to the pier to measure strain. The walls in front; by test, they are cast and degreased to ensure adhesion with polymer concrete and placed in form 2. When the concrete mixture is poured into the mixture polymer form, samples of the type 8 eights are formed between the walls. After the mixture is cured, the samples are stretched in the mold to a predetermined deformation, then the samples are unloaded, removed from the mold, the walls are removed, for example, with an emery wheel, and they are re-loaded before destruction. In addition, even without the use of the walls, a reference sample is made of polymer concrete, it is loaded to destruction, and the strength of the polymer concrete is measured by stretching under conditions where the influence of the walls has not affected. The effect of metal walls on the strength of polymer concrete is judged by comparing the results of loading the reference sample and the samples after removing the walls. Primer p. Samples with walls stretch to various specified deformations of 6.7 7.0 -10 and 7.3 x. Then the walls are cleaned and the specimens without walls are loaded until ... destruction. The strength of specimens without piers is on average

311

7.0 MPa. In this case, the strength of the third sample after deformation to 7.310 is 5.7 MPa, which is less than the lower limit of the confidence interval of strength. It follows that the deformation due to the magnitude of the deformation equal to 7.0 10 along, even with the destruction of the concrete structure.

The elongation at the destruction of the reference polymeric concrete samples made without the use of the walls, is only 4 10, which is much less than the deformation values (b, 7-7-JO) of the polymer concrete, together with the walls.

86884

Therefore, the use of concrete in the composition of the concrete-metal composition is associated with an increase in the limiting deformation of destruction. By changing the thickness of the pads, mechanical characteristics are obtained that correspond to structures that work in conjunction with elastic piers of varying stiffness. The invention makes it possible to determine

o durability of polymer concrete and simulate the operation of metal structures protected by a layer of polymer concrete by testing specially made samples with piers.

Claims (1)

METHOD FOR TESTING CONCRETE FOR STRENGTH AT. STRETCHES, consisting in the fact that samples are made by pouring concrete mixture into a mold, after the mixture has been uncured, the samples are stretched, stresses and deformations of concrete are recorded during loading, and its strength is judged by the test results, characterized in that, in order to expand the capabilities of the method, taking into account the operation of polymer concrete in constructions where it acts as a protective layer, elastic walls are placed before pouring into the mold, which form samples of the eights type from the mixture, the samples are stretched together with a simple kami to predetermined values of deformation, then unload samples partitions removed, loaded again these specimens to failure and judge the effect of partitions on strength comparison polymer sample loading results after deleting partitions and reference polymer concrete sample prepared without partitions. Fp1