SU1193504A1 - Arrangement for testing tubular specimens for axial compression - Google Patents

Abstract

A DEVICE FOR TESTING THE TUBULAR IMAGES FOR AXIAL COMPRESSION, containing means for applying an axial force to the sample and installed without a gap inside the sample, an insert to prevent loss of stability of the sample, the axis of which coincides with the axis of the latter, which is precisely because in order to increase the accuracy testing, the insertion is made in the form of a set of circumferentially mounted beams, the outer surfaces of which are designed to interact with the sample, the pushers fixed on the inner surface of the beams of both and x ends perpendicular to the axle of the liner mounted coaxially to the girders of the sleeve with holes on the side surface in which the pushers are placed and mounted coaxially inside the sleeve and axially spring-loaded relative to one another of two conical bushings, the outer conical surfaces of which interact with the ends facing it cathels, and the angle of inclination of the generators (L of the conical surface of the sleeves to the axis of the insert does not exceed the friction angle of the pushers along the sleeves.

Description

with

00 SP The invention relates to a test technique and can be used to test for axial compression of thin-walled tubular specimens. The aim of the invention is to improve the accuracy of the test by ensuring that the liver more closely matches the stress-strain state of the sample to uniaxial compression. In FIG. 1 shows a test apparatus, a section j in FIG. 2 section A-A in FIG. 1. The device comprises means for applying to the sample 1 an axial -pill, made in the form of supports 2 and 3, and an insert installed inside the sample without a gap, which consists of a set of beams 4, installed circumferentially parallel to axis 00. To the inner surfaces of the beams 4, pushers 5 are perpendicular to the axis 00 on both their ends. A bushing 6c is mounted coaxially to the beams with holes on the side surface, in which the pushers 5 are placed with the possibility of axial displacement. Inside the bushing 6 there are two conical bushing 7 and 8, having the possibility of axial movement along the rod 9. The sleeves 7 and 8 are spring-loaded relative to one another by the spring 10, and their outer-side surfaces having an inclination angle of the taper forming the axis to the axis 00 are less than the angle t Rheni pushers 5 on the sleeve 6, interact with the ends of the pushers 5. 042 The device operates as follows. The conical bushings 7 and 8 pull together, compressing the spring 10, shift to the middle of the beams 4, and install the inserts inside the sample 1. Under the action of the spring 10, the conical bushings 7 and 8 move along the axis, working with the pushers 5, which press the beams 4 to the inner surface sample 1. Then sample 1 with the insert installed in it is placed between supports 2 and 3 and is loaded with a compressive axial force from a press (not shown). Being in constant contact with the inner surface of sample 1, beams 4 increase the critical load that can lead to loss of stability of the test sample. I. to the appearance of deflections and holes on its surface. The radial forces arising during the test and directed perpendicular to the axis O are perceived by the beams 4, which cannot move to the axis 00, since the pushers 5 abut their ends against the conical surface of the sleeves 7, 8 with an angle of inclination of less than a friction angle and such thus, they cannot be displaced. The sample under loading does not lose stability under heavy loads and, therefore, more accurate matching of the stress-strain state scheme to uniaxial compression is ensured.

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Claims (1)

DEVICE FOR TESTING TUBULAR SAMPLES FOR AXIAL COMPRESSION, containing means for applying axial force to the sample and installed without clearance inside the sample, an insert to · prevent loss of stability of the sample, whose axis coincides with the axis of the sample, which, in order to improve accuracy tests, the liner is made in the form of a set of beams installed around the circumference, the outer surfaces of which are designed to interact with the sample, pushers mounted on the inner surface of the beams at both ends perpendicular to the axis of the liner, mounted coaxially with the beams of the sleeve with holes on the side surface in which the pushers are located, and installed coaxially inside the sleeve and axially spring-loaded with two conical bushes, the outer conical surfaces of which interact with the ends facing them d of the cutters, and the angle of inclination of the conical surface of the bushings to the axis of the liner does not exceed the friction angle of the pushers along the bushings. yoo 4 ^