RU127920U1 - SAMPLE AND DEVICE FOR EXTENCENT COMPRESSION TEST - Google Patents

Abstract

1. Test piece for eccentric compression, characterized in that it has an I-profile with holes in the corners on the upper and lower surfaces for fixing it in the test device, 2. A device for eccentric compression testing, including the lower movable and upper stationary yokes of the testing machine, centering elements, characterized in that it is additionally equipped with a lower base plate with guide pins in the corners and an upper base plate with holes in the corners for installation of fixing pins with washers and tightening nuts, while on the outer surfaces of the base plates four spherical holes are made symmetrically in pairs for centering elements, one pair of which coincides with odolnoy sample axis, and the other are offset relative to the axis by a predetermined distance.

Description

The utility model relates to the field of construction, in particular to tests of samples for eccentric compression.

The closest device and sample of the same purpose to the claimed utility model in terms of features is a device containing the lower movable and upper stationary yokes of the testing machine, the test sample in the form of a prism with two pairs of spherical holes for centering elements, one of which coincides with the longitudinal the axis of the sample, and the second pair is offset relative to the axis by a predetermined distance. The loading of the samples is carried out with the only eccentricity set in advance. (Resistance to materials. Implementation manual and laboratory journal. Author: V.G. Podoinikov, Chelyabinsk, 2010. P.). Adopted for the prototype.

A disadvantage of the known device and sample is the limited possibility of studying the influence of the eccentricity of the compressive load on the stress distribution over the cross section and the impossibility of directly determining the stresses in the center of gravity of the section.

The essence of the claimed utility model is the possibility of studying the effect of eccentricities on the stress distribution in the cross section, including the center of gravity itself.

The technical result of the utility model is to obtain reliable results about the stress state of the sample material.

The technical result of the sample is achieved by the fact that in the known sample for eccentric compression tests with spherical holes for centering elements, the feature is that the sample has an I-profile with holes in the corners on the upper and lower surfaces for fixing it in the test device.

The technical result of the device is achieved by the fact that the known device for testing eccentric compression, including the lower movable and upper stationary yokes of the testing machine, centering elements, is additionally equipped with a lower base plate with guide pins in the corners and an upper base plate with holes in the corners for installation in fixing pins with washers and tightening nuts, while four spherical holes for centering are symmetrically paired on the outer surfaces of the base plates elements, one pair of which coincides with the longitudinal axis of the sample, and the others are offset relative to the axis by a given distance.

The figure shows a diagram of a device for testing a sample of an I-section for eccentric compression, where the following designations are adopted: sample - 1, upper base plate - 2, lower base plate - 3, spherical hole - 4, centering element - 5, locking pin - 6, a tightening nut - 7, a washer - 8, a directing hairpin - 9.

Initially, specimen - 1 is fixed on the lower base plate - 3 with four guide pins - 9. Then, the upper base plate - 2 is installed, which is fastened with four fixing pins - 6, with the tightening nuts - 7 through washers - 8.

Before installing the sample - 1, the centering elements - 5 are installed in the form of steel spheres in the spherical holes - 4 in the upper and lower support plates, which coincide with the main central axis of the test sample - 1. The assembled device is placed in a universal machine, for example, UMM type, is installed between the upper fixed and lower movable traverses and the sample is loaded stepwise - 1. Then the centering elements - 5 are alternately moved to the next symmetrically located spherical holes - 4 with a given e stsentrisitetom and produce similar loading loading conducted along the main central axis.

The inventive sample and device for testing eccentric compression allow:

- assess the effect of eccentricities on the stress distribution over the cross section;

- directly measure the magnitude of the stress in the center of gravity of the section and confirm its independence from the eccentricity;

- find out the position of the zero line (the boundary between the stretched and compressed zones);

- visually ascertain the existence of a cross section core.

Claims (2)

1. A sample for eccentric compression tests, characterized in that it has an I-profile with holes in the corners on the upper and lower surfaces for fixing it in the test device, 2. A device for testing eccentric compression, including the lower movable and upper stationary yokes of the testing machine, centering elements, characterized in that it is additionally equipped with a lower base plate with guide pins in the corners and an upper base plate with holes in the corners for fixing studs with washers and tightening nuts, while on the outer surfaces of the base plates four spherical holes are made symmetrically in pairs for centering elements, one pair of which coincides with the longitudinal axis of the sample, while others are offset relative to the axis by a predetermined distance.

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