SU1698686A1 - Breaking material testing device - Google Patents

Abstract

The invention relates to testing equipment, to strength tests. The purpose of the invention is to improve the accuracy when testing samples of textile materials at elevated temperatures by maintaining the constant parameters of the medium in the chamber while ensuring the testing of samples of different lengths, as well as expanding operational capabilities by increasing the number of applied loads. In the working chamber 1 are placed gi with grippers for obrzztsa. There is a compensation chamber 7 made of an elastic material. Working chamber 1 is axially and rigidly radially expandable. There is a passive mass compensator. Set the sample in the grips. At the same time, the corrugations of the working chamber move while actively mixing the medium. The sample is ruptured. At the same time, the volume of the working chamber is reduced and the medium passes into the compensation chamber, which increases in volume. That is, the total volume remains unchanged. The extensibility of chamber 1 allows the installation of samples of different lengths. 1 hp f-ly, 1 ill.

Description

The invention relates to testing equipment, in particular to strength tests.

The purpose of the invention is to increase the accuracy when testing samples of textile materials at elevated temperatures by maintaining a constant environment in the chamber while ensuring tests of samples of different lengths, as well as expanding operational capabilities by increasing the number of applied loads.

The drawing shows a device, General view.

The device comprises a working chamber 1, mounted on a traverse 2 of a tensile testing machine, made axially expandable (corrugated), for example, from a plastic film, with the possibility of moving the corrugations 3 along the axis in which the light source 4, temperature and humidity sensors (not shown) are located , an inspection window (not shown) and a fixture 5 for replacing samples, consisting, for example, of sleeves of plastic film and gloves, are made in the side surface of the chamber. The device 5 for replacing samples can be performed in another way. The device for creating temperature is made in the form of heaters 6, attached horizontally to the inner sides of the corrugations. Dry and wet thermocouples were used as sensors. Compensation chamber 7, communicating with the working, is made, for example, of a thin easily extensible rubber film. On the active rod 8, the rod 9 of the dial indicator 10 is fixed, which, in turn, is mounted on the struts 11 of the passive rod. Passive thrust is balanced through blocks 12 on thread 13 by a compensator consisting of a set of gru. call. The passive thrust positioner consists of a ring 15, rigidly fixed to the traverse 2 of the tensile testing machine, and clamps 16 for connecting the ring to the racks 11 of the capture thrust. Lockable inlet 17 and outlet 18 (outlet) nozzles pass into the chamber. To measure and control the temperature, a Sh-4516 millivoltmeter was used.

The device operates as follows.

A series of equally and / or mixed samples (threads, fabrics, knitted fabrics) are placed in chamber 1, the necessary environmental parameters are created in it and attached to the traverse of the tensile testing machine. Humidity in the range of 0-100% is created, for example, by placing an open container with a saturated solution of standard chemicals on the bottom of the chamber or passing moist air into the chamber through inlet 17 and outlet 18.

A temperature in the range of 20-100 ° C, for example. create heaters 6 or passing through the nozzles of hot air.

When you install the required clamping length of the sample, the clamps 16 are removed from the racks 11 of the passive traction, move the traction to the required distance and press the clamps 16. to the racks 11.

Upon reaching the necessary wet-temperature conditions in the chamber, they begin to test.

The light source 4 is turned on and, observing through a viewing window (not shown), using the fixture 5 to replace the samples, take a sample from the bottom of the chamber 1 and fix it in the upper grip. In this case, the corrugations 3 and the heaters 6 attached to them move upward, approaching above the level of the location of the sample change unit and moving away from each other below the level of the location of the sample replacement unit, while the medium in the chamber is actively mixed by the corrugations and heaters

Then the sample is fixed in the lower grip, while the corrugations and the heaters attached to them move downward, converging below the level of the sample replacement unit and moving away from each other above the level of the sample replacement unit, while the medium in the chamber is actively mixed.

Turn on the bursting machine and tear the sample. In this case, the crosshead 2 moves down along with the passive rod 11 and the dial indicator 10, and the elongated rod 9 of the indicator remains stationary. The corrugations 3 of the chamber with heaters 6 move downward, approaching each other and actively mix the medium, and the chamber decreases in height. The compensation chamber 7, due to the decrease in the volume of the working chamber and the movement of air into it, increases in volume and, thus, the total volume of the working and compensation chambers does not change, the medium is also mixed during air exchange, while parasitic changes in the medium parameters are practically prevented, which ensures a constant sample moisture. the camera, decreasing (folding) in height during the deformation of the sample, can significantly increase the traverse stroke in comparison with a rigid camera, which Will vysokorastyazhimye testing samples and extend the range of sample deformation.

The magnitude of the effort is removed from the load scale of the tensile testing machine, and the amount of deformation of the sample is either taken from the tensile strength of the tensile testing machine, or more precisely from the dial indicator scale,

When the traverse returns to its original position, similar processes occur, but in the opposite direction.

The lower grip traction mass compensator compensates for a different proportion of the traction mass, which allows not only balancing 15 traction, but also expanding the device’s operational capabilities - compensating only part of the traction mass, i.e. load the sample by removing part of the mass of the compensator 14, as a result of which the total mass of the compensator 20 and the thrust decreases, which leads to a decrease in the interaction forces on the support (block) and an increase in the sensitivity (accuracy) of measurements.

Claims (1)

'' Claims 1. A device for tensile testing of samples of materials containing a working chamber with one-sided input of active and 5 passive rods, passive rod position lock, a device for creating test temperatures, a device for replacing samples and regulating and recording equipment, distinguishing 10 with the fact that, in order to improve accuracy, when testing samples of textile materials by maintaining a constant environment in the chamber while ensuring testing of samples of different lengths, it is equipped with a compensation chamber in communication with the working chamber, the working chamber is made tensile only in the direction of the axis of the rods, and compensation ion chamber is made of elastic material.