RU183641U1 - Axial tensile test specimen - Google Patents

Abstract

The utility model relates to the field of testing building products and relates to samples for determining the axial tensile strength of concrete. The sample is made in the form of a prism of square cross section. The cross section of the middle section of the concrete sample is made in the form of a regular octagon, and the coupling of the middle section and the end sections of the square cross section is made using cylindrical surfaces, the centers of curvature of which lie in the plane passing through the opposite longitudinal edges of the concrete sample, symmetrically with respect to its center. Effect: increasing the reliability of the results obtained during the axial tensile test. 1 ill.

Description

The utility model relates to the field of testing building products and relates to samples for determining the axial tensile strength of concrete.

Known concrete specimen for axial tensile testing, made in the form of a prism with widened ends, to which the grips of the tensile testing machine are attached (GOST 10180-2012 Concrete. Methods for determining the strength of control samples. - M., Standardartinform, 2013, P. 25 , Fig. K. 1b).

The disadvantages of the analogue are the bulkiness and large weight of the sample, as well as the complexity of the design, the large weight and bulkiness of the form for its manufacture.

Known concrete model for axial tensile testing made in the form of a prism of square cross-section (GOST 10180-2012 Concrete. Methods for determining the strength of the control samples. -M., Standardinform, 2013, S. 25, Fig. K. 1c). The grippers of the tensile testing machine are fastened to the sample with glue, by pressing the grippers to the side faces of the sample.

According to the greatest number of similar features and the result achieved using the given technical solution is selected as a prototype of the claimed utility model.

The disadvantages of the prototype are associated, firstly, with the method of fastening the grips of the tensile testing machine, but mainly with the structure of the concrete sample formed during vibrational compaction. Fixing the grippers with glue is characterized by high complexity associated with the need to prepare the ends of the sample, cleaning the grippers from the glue after testing, the time required to set the strength of the adhesive joint, the material consumption of the testing devices, and the high cost of glue. All mechanical grips contribute to the appearance of foci of stress concentration in the concrete specimen, which is why some of the specimens are destroyed in the attachment zone of the grippers.

In addition, when forming a prismatic concrete sample on a vibrating platform, uneven compaction of the concrete mixture occurs both in the thickness of the sample and in its corners.

The technical result, which the proposed utility model is aimed at, consists in increasing the reliability of the results obtained during the axial tensile test.

To achieve the specified technical result, the axial tensile test specimen made in the form of a square prism cross section has a cross section of the middle section in the shape of a regular octagon, and the middle section is mated with the end sections of the square cross section using cylindrical surfaces whose center of curvature lie in a plane passing through opposite longitudinal ribs of the concrete sample, symmetrically with respect to its center.

The distinguishing features of the proposed utility model is the cross-section of a concrete sample in the middle part in the form of a regular octagon, the conjugation of the middle section with the end sections of the square cross section is performed using cylindrical surfaces, the symmetric arrangement of the centers of curvature of the cylindrical surfaces in a plane passing through opposite longitudinal ribs concrete sample, relative to its center.

Due to the presence of these features, the proposed sample shows higher values of tensile strength with a smaller scatter of results.

The proposed sample is illustrated by a drawing, which shows its General side view with a vertical orientation of a plane passing through opposite longitudinal ribs of the sample, combined with a cross section.

The sample contains end sections 1 of a square cross section, a middle section 2 of an octagonal cross section, transition sections 3 outlined in an arc of a circle.

A sample of the claimed form is obtained by removing portions of a prismatic sample adjacent to its longitudinal ribs using a diamond circular saw equipped with a conductor for placement in it of a concrete sample providing its longitudinal and transverse movement relative to the saw blade.

The time spent on this operation does not exceed 10 minutes. The area of the middle section 2 of the octagonal cross section of the sample is 17% less than the area of the end sections 1 of the square cross section. Since concrete of the same - uniform composition is characterized by a strength spread of about 15%, the vast majority of concrete samples of the proposed shape are destroyed within the middle section 2. Due to the transitional sections 3, the influence of stress concentration at the attachment points of the explosive machine grips, for example, rows of screws close to the sample center, is eliminated devices for testing samples for axial tension according to patent No. 81330.

Claims (1)

An axial tensile test specimen made in the form of a prism of square cross section, characterized in that the cross section of the middle section 2 of the concrete sample is made in the form of a regular octagon, and the coupling of the middle section 2 with the end sections 1 of the square cross section is made using cylindrical surfaces , the centers of curvature of which lie in a plane passing through opposite longitudinal ribs of the concrete sample, symmetrically with respect to its center.

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