UA60515A - Method for strength test of brick - Google Patents

Abstract

The proposed method for strength test of brick consists in determining the bending strength and the compression strength of brick. The test for determining the brick bending strength is carried out before the test for determining the compression strength. The bending test lasts until the brick sample breaks down with division into two parts. For determining the brick compression strength, the following operations are performed: matching the two brick sample parts and stacking them on each other; installing the sample on the anvil of a press between two metallic plates, which are exposed to the press force; compressing the sample by the press; determining the limit destructing force (P) under compression, the sample area (F) exposed to the compression force, and the brick compression strength as the P/F ratio. The sample area (F) is determined from the known area of each of the said metallic plates.

Description

Description of the invention

The invention relates to methods of measuring mechanical stress using hydraulic and pneumatic means. 2 The method of brick strength tests chosen as the closest analogue is known, which includes determining the limits of the compressive and bending strength of bricks (GOST 8462-85 "Wall materials. Methods of determining the limits of compressive and bending strength"). The limit of compressive strength of bricks is determined on samples consisting of two whole bricks or two halves of them. Bricks are divided into halves by sawing or splitting. It is allowed to determine the limits of compressive strength from two parts of a brick obtained after 70 bending tests. Bricks or the supporting surfaces of their halves, which were previously aligned, are placed in "beds" one on top of the other. Brick halves are placed with their interfaces in opposite directions. When preparing the samples, the surfaces that are located perpendicular to the direction of the compressive load in the structure are subject to alignment. Samples of ceramic bricks of plastic molding are made by connecting parts of the sample and leveling their supporting surfaces with cement mortar. Samples of silicate and 72 ceramic bricks of semi-dry pressing are tested dry, without leveling their surfaces with cement mortar.

When determining the compressive strength limits of a ceramic brick by plastic pressing, it is allowed to make samples by leveling their supporting surfaces by grinding, gypsum solution or by using pads made of technical felt, rubber fabric plates, cardboard and other materials. Samples made using gypsum mortar shall be tested no earlier than 2 hours after the start of setting. The thickness of the solution layer should be no more than B5 mm, the water-gypsum ratio is 0.32-0.35. The bending strength limit of ceramic and silicate bricks is determined on a whole brick. In the places of support and application of the load, the surface of plastic molding bricks is leveled with cement or gypsum mortar, sanding, or cardboard spacers are used.

Bricks with non-through cavities are installed on supports so that the cavities are located in the stretched zone of the sample. Semi-dry pressed silicate and ceramic bricks are tested for bending without the use of solutions gaskets Samples are measured with an error of up to 1 mm. Each linear size of the sample is calculated as the "arithmetic mean value of the results of the measurements of the two middle lines of the opposite surfaces of the sample. Vertical axial lines are drawn on the side surfaces of the sample. The sample is placed in the center of the press plate, aligning the geometric axes of the sample and the plate, and pressed by the upper plate of the press. Loads on the sample must increase continuously and uniformly at a rate that ensures its destruction 20-60 seconds after the start of the tests. at

The compressive strength limit of a brick is defined as the ratio of the largest load determined during "-- tests of the sample (in kilograms) to the cross-sectional area of the sample, calculated as the arithmetic mean of the areas of its upper and lower surfaces (in cm 2). The compressive strength limit of bricks in a batch is calculated with an accuracy of (1 kg/cm?) as the arithmetic mean value of the test results | "c) with the established number of samples. The brick is tested for bending by placing it on two supports with a press. The load is applied in the middle of the span and evenly distributed across the width of the sample,

Loads on the sample must increase continuously at a rate that ensures its destruction 20-60 seconds after the start of the tests. The bending strength of the samples in the batch is calculated with an accuracy of

O, Bkg/cm2, as the arithmetic mean value of the test results of the specified number of samples. When calculating the bending strength of samples in the batch, the samples whose strength limit deviates from the average value of the strength limits of all samples by more than 5095 and no more than one sample in each direction are not taken into account. with Features of the closest analogue, which coincide with the essential features of the invention, is the presence in the method of carrying out brick strength tests of determining the bending strength limit, with the formation of two parts of the brick and determining the compressive strength limit, which includes the alignment of the upper and lower surfaces of the "bed" b of the formed parts of the brick, obtaining a sample by stacking the parts of the brick in "beds" one on top of the other, placing the sample in the center of the press plate, pressing it with the upper plate of the press, determining the greatest force P that destroys under compression, recorded during the test of the sample, determining the area E of attachment of this force, with determination of the strength limit under compression as the ratio R/kB.

The technical result of the invention when conducting tests, namely when measuring the limit of compressive strength - and the limit of bending strength, is in the reduction of the consumption of the tested material, as well as in the reduction of labor intensity and the increase in the accuracy of determining the limit of bending strength.

The reasons that prevent obtaining a technical result when using the closest analogue are the following circumstances. According to DSTU BV.2.7-61-97 "Building materials. Bricks and stones ceramic ordinary and face. 5B Technical conditions", the number of products of acceptance and acceptance tests, when determining the limit of compressive strength is 10 brick samples, when determining the limit of bending strength 5 brick samples are required. 15 in total

R whole bricks. The consumption of bricks in this order is due to the fact that to determine the limit of compressive strength, 20 halves of ten whole bricks are prepared and 5 samples of whole bricks are also subjected to separation into 2 parts when determining the limit of bending strength. The necessity of cutting or chipping bricks with subsequent processing increases the complexity of performing the method according to the closest analogue.

The technical task of the invention is to create a method of testing bricks for strength, in which due to the fact that bending tests precede compression tests for the formation of two parts, material consumption and labor intensity are reduced.

The set technical problem is solved by the fact that in the method of testing bricks for strength, which 65 includes determining the limit of bending strength with the formation of two parts of a brick and determining the limit of compressive strength, which includes the alignment of the upper and lower surfaces of the "bed" of the formed parts of the brick, obtaining of the sample by stacking parts of the brick in "beds" one on top of the other, placing the sample in the center of the press plate, pressing it with the upper plate of the press, determining the greatest destructive force P during compression recorded during the test of the sample, determining the area E of applying this force, determining the strength limit in compression as the R/R ratio, according to the invention, the determination of the bending strength limit of a brick is carried out before determining the compressive strength limit of a brick, the area E of the application of the greatest force P, which destroys, in compression is determined as the surface area of metal plates, the width of which corresponds to the width of the brick , and the length does not exceed the distance from the protuberant part of the sample to the back line lu, between which the sample is placed along the width of the metal plates, and the fixing faces are made. 70 There is such a causal relationship between the set of essential features of the invention and the technical result achieved. The reduction of labor intensity in determining the limit of compressive strength occurs due to the exclusion of preliminary sawing or splitting of bricks with subsequent processing. Accuracy in determining the limit of bending strength will be achieved due to a larger number of tested samples, and in determining the limit of compressive strength will be maintained due to the accurate determination of the dimensions of the metal plates. 15 The proposed method of determining the limit of bending strength and the limit of compressive strength assumes a reduction of the tested brick samples by 1/3, namely, to determine the limit of compressive strength, all brick samples are needed, from which 10 samples (20 parts of bricks) are taken after determining the strength limit to bend

At the same time, 5 whole bricks are saved and the complexity of testing is reduced.

The method is illustrated by graphic material, where in fig. 1 shows a diagram of compression tests of a brick sample, side view, and in fig. 2 section A-A of the scheme of compression tests of a brick sample. The figures show metal plates 1 with a face 2, parts of brick C, a layer of cardboard 4, a chip line 5, as well as a metal plate of a hydraulic power unit 6 with an applied uniformly distributed load P.

The method is carried out as follows. First of all, 10 pieces of bricks are tested for bending and the limit of bending strength is determined as the arithmetic mean of ten results of determining the limit of bending strength. Second, compression tests of brick samples are carried out. A brick sample is made from two parts of a brick, after determining the limit of bending strength. Pre-install spacers 4 made of cardboard with a thickness of 3 to 5 mm between the surfaces of the bed that touch the formed parts of the brick 3 and the metal surfaces of the plates 1 selected from the set of plates. The set of plates consists of a set of metal plates 1, the width of which is equal to the width of the usual and modular brick and length 7Omm, vOmm, UOmm, uOmm. For example, plates 1 have a width of 120mm and a length of 9O0mm, and the area E is 108cm2. Thus, the prepared sample, placed between the metal plates 1, is installed in the center of the metal plate -- 6 of a hydraulic press and subjected to a force load

P, which destroys, for example, equal to 22000 kg, further determine the limit of compressive strength of a brick sample, as P/E - 203.7 kg/cm 7. o (Ce)

Claims (1)

The formula of the invention is the method of testing bricks for strength, which consists in determining the limit of bending strength with "470 formation of two parts of a brick and determining the limit of compressive strength, which includes leveling the upper and lower surfaces of the "bed" of the formed parts of the brick, obtaining a sample by stacking parts of the brick in "beds" on top of each other, placing the sample in the center of the press plate, pressing it with the upper plate of the press, determining "» the largest destructive force P during compression recorded during the test of the sample, determining the area E of applying this force, determining the compressive strength limit as the P/P ratio, which differs in that the determination of the bending strength limit of a brick is carried out before the determination of the compressive strength limit of a brick, Ge"), the area E of applying the greatest destructive force P to compression is determined as the surface area of metal plates, the width of which corresponds to the width of the brick , and the length does not exceed the distance from the tip part of the sample to the cleavage line, mi with which the sample is set, fixing faces are made along the width of the metal plates. 1 - 50 sl R 60 b5