SU1753342A1 - Device for tensile testing of tubular polymeric specimens - Google Patents

Abstract

The invention relates to a test apparatus, in particular to devices for testing tubular polymer specimens for stretching. The purpose of the invention is to increase the reliability of tests under conditions of normal and elevated temperatures. The device contains captures for placement inside sample 3,

Description

The invention relates to a test apparatus, in particular to devices for testing tubular polymer samples for tensile strength.

A device for fastening thin-walled tubular specimens is known, comprising a cylindrical body, wedge-shaped liners, a rod with a sealing element, and a device associated with the rod for moving the wedge-shaped liners.

The disadvantages of this device are the limited range of test loads and the ability to carry out a test simultaneously for axial and radial stretching from any source of external force.,

Known Device For testing polymeric tubular samples for stretching, containing grippers made in the form of rigid shells mounted on the ends of the sample, rods and a load interacting with them.

The drawback of the device is its limited capabilities, since it does not provide simultaneous stretching of the sample in the axial and radial directions from a single load cell.

The closest to the invention to the technical essence is a device for testing tubular polymer specimens for stretching, containing grips made in the form of two split cylindrical mandrels with a cone-shaped cavity and a conjugate cylinder placed inside the specimen, the axis of which coincides with the axis of the specimen and two conical inserts placed in the conical cavity of the mandrels.

A disadvantage of the known device is its limited capabilities, which does not allow testing of tubular specimens from a material with different mechanical strength and does not simultaneously provide stretching of specimens for axial and radial directions.

The purpose of the invention is to increase the reliability of tests under conditions of normal and elevated temperatures.

This goal is achieved by the fact that a device for testing tubular polymer specimens for stretching, containing grippers designed to be placed inside the sample, made in the form of split cylindrical sleeves, cavities

which are made in the form of cones turned to each other by large bases, communicated by means of a cylindrical cavity, a load placed in one of the conical parts of the cavity, and

The gland, rigidly connected to the loader, is provided with sleeves with inner sleeves, the inner diameter of the sleeve, which are intended to be fixed on opposite ends and cover part of the side surface of the sample,

intended to be mounted on the sample end on the load side, equal to the outer diameter of the second sleeve, which is mounted for movement along the axis of the first sleeve

The drawing shows a schematic of a device for testing tensile polymer tubular specimens with a general sectional view.

The device contains grippers 1 and 2 designed to be placed inside sample 3 made in the form of split cylindrical sleeves 1 and 2, the cavities of which are made in the form of cones facing through large bases to one another and communicated by means of a cylindrical cavity, the loader 4 placed in one of the conical parts of the cavity, and pull 5, rigidly connected to the loader 4, in addition, the device is equipped to

fixing on opposite ends and covering the part of the side surface of the sample 3 with sleeves 6 and 7 with shoulders 8 Internal diameter of the sleeve 6 intended to be mounted on the end of sample 3 from

load 4 is equal to the outer diameter of the sleeve 2, which is installed with the possibility of axial movement of the cavity of the sample 3 and the sleeve 2 filled with body 9 in the conical cavity of the sleeve 2 is placed the loader 10.

The device works as follows

The test sample 3 is placed inside the sleeve b, inside the sample is placed

sleeve 2. Cavities of the sample and sleeve are filled with a yutter on top of which a loading device 4 and sleeve 1 are installed, in an axial hole of which is placed a pull 5 Then install the sleeve 7 at the sample end. Next, the device is installed in the grips of the testing machine (not shown) and single-force loading, for example compression

Under the action of the force Ro on the th 5, the force is transmitted through the punch 12 to the working body 11, compressing it.

As a result, two components of the tensile forces are formed in the cavity of sample 3: Pr (acting along the radius) and Ro (acting along the axis), which ensures the sample is stretched in axial and radial directions and increases the reliability of the test results.

Ф о рм ул а and з о б р r ete n and

A device for testing tensile polymer tubular specimens containing grippers designed to

placements inside the sample, made in the form of split cylindrical sleeves, the cavities of which are made in the form of cones facing through large bases to one another, communicated by means of a cylindrical cavity, a load placed in one of the conical parts of the cavity, and a string rigidly connected to the load handler , characterized in that, in order to increase the reliability of tests under conditions of normal and elevated temperatures, it is provided for fixing on opposite ends and covering part of the side over awns sample bushings with collar, the inner diameter of the sleeve intended to be mounted on the end of the sample from the nagru- zhatel, equal to the outer diameter of the second sleeve which is movable along a first axis of the sleeve.

Claims (1)

Formula s and a device for testing tubular polymer samples in tension, 20 containing grips intended for 5 1753342 δ placement Inside the sample, made in the form of split cylindrical bushings, the cavities of which are made in the form of cones facing one another with large bases, communicated by means of a cylindrical cavity, and a load placed in one of the conical parts of the cavity , and thrust rigidly connected to the loader, which makes it possible to increase the reliability of tests at normal and elevated temperatures, it is equipped with those designed to be fixed on opposite ends and cover part of the of the specimen surface with bushings with collars, the inner diameter of the bush intended for installation on the end of the specimen from the side of the loader is equal to the outer diameter of the second bush, which is mounted to move along the axis of the first bush,. '/ ί / 7 / -' 'No. 77 ^ 7 7 .k /// / \ / /--/-/7//,./7-//^:,7//-///-7 - / ^ - -7 /:, - 7 -7 /: / / b \.