SU1101715A1 - Method of testing sheet material for biaxial tension under various temperatures - Google Patents

Abstract

1. METHOD FOR TESTING OF SHEET METAL FOR TWO-VOLUME EXTENSION AT DIFFERENT TEMPERATURES in auth. No. 478223, characterized in that, in order to broaden the technological possibilities, before loading the sample, press the diaphragm against the matrix, load it and fix the diagram of the force-deformation of the diaphragm both during the loading of the diaphragm and when loading the sample with the diaphragm. 2. A method according to Claim 1, characterized in that, when loading a sample with a diaphragm, the deformation pattern of the sample — deformation of the diaphragm — is fixed.

Description

The invention relates to testing materials and can be used in testing sheet material for biaxial tension at various temperatures. 5

By main auto No. 478.223, there is a known method of testing sheet metal for biaxial tension at various temperatures, namely, that a cup-shaped diaphragm is attached to the sample along its perimeter 10, the cavity formed by the sample and the diaphragm is filled with a working medium, the properties of which are selected from the condition of ensuring a given temperature tests, press the sample to the matrix and load [ij.

The disadvantage of this method is the narrow technological capabilities due to the impossibility of directly measuring ~ 20 a pressure of the working medium at high temperatures and the need to lower the test temperature or introduce indirect methods of measuring pressure.

The aim of the invention is to grow - 25 rhenie technological capabilities.

This goal is achieved by the fact that according to the method of testing sheet metal for biaxial tension at different temperatures, which consists in the fact that a cup-shaped diaphragm is attached to the sample along its perimeter, the cavity formed by the sample and the diaphragm is filled with a working medium, the properties of which are chosen from the condition of ensuring the specified test temperature, they press the sample to the matrix and load, before loading the sample press the diaphragm to the matrix, load it and fix the force-strain diagram of the diaphragm as and loading the diaphragm, the same when loading the sample _h with the diaphragm.

In addition, when loading the sample with a diaphragm fixed chart ₄₅ de- formation of the sample - the deformation of the diaphragm?

The drawing shows a diagram of a device for implementing the proposed method.

The device contains a matrix 1, ₅ θ clamping ring 2, latches 3 of the matrix 1 relative to ring 2, rod 4, one end of which is connected to the clamping ring 2, rod 5 with an insert 6ι at one end, a cup-shaped diaphragm ·,.,. ragma 7, and the second ends of the rods 4 and are used for fastening in grippers (not shown) of the loading mechanism.

The method is as follows.

The diaphragm 7 is mounted on the matrix 1, pressed against it using the clamping ring 2 and fixed with clamps 3. Install the rods 4 and 5 in the grips of the loading mechanism and move the rod 4 relative to the rod 5, while the diaphragm 7 is heated to the test temperature of the material .. When moving rods 4 and 5, liner 6 loads the diaphragm 7. The force acting on the diaphragm 7, its deformation and the stress-strain diagram of the diaphragm are fixed. Then remove the diaphragm from the device, attach it around the perimeter to the sample 8 and fill the formed cavity with a working medium 9, the properties of which are chosen so that the medium is in a liquid state at the test temperature of sample 8. Place sample 8 with a diaphragm 7 on the matrix 1, press them to the matrix 1 by the ring 2 and fix the matrix 1 relative to the ring 2 by the latches 3. Place the device in the grips of the loading mechanism and when moving the rods 4 and 5 load the diaphragm 7 with the insert 6.

When the diaphragm 7 is deformed at test temperatures, the liquid working medium 9 transfers pressure to the sample; ’8, which is loaded with a uniformly distributed pressure of the working medium 9. When loading the sample 8, the diaphragm stress-strain diagram is recorded. The difference in the efforts required to achieve the same deformations of the diaphragm 7 when testing only the diaphragm 7 and the sample 8 with the diaphragm, judge the pressure of the working medium 9 and the stresses in the sample. In addition, during loading, the deformation of the sample — the deformation of the diaphragm — is recorded, which allows one to evaluate both the stress in the sample 8 and its displacement and deformation.

The proposed method allows to determine the properties of the sheet material on biaxial tension in a wide temperature range through the use of an indirect method for determining the pressure of the working medium.

VNIIIPI Zakae 4755/27 Circulation 823 __Subscription

Branch of PPP ^P Patent ^ 7, Uzhgorod, Project 4,

Claims (2)

1. METHOD FOR TESTING SHEET METAL ON TWO-AXIAL TENSION AT DIFFERENT TEMPERATURES according to ed. No. 478223, characterized in that, in order to expand technological capabilities, before loading the sample, press the diaphragm to the matrix, load it and fix the force-strain diagram of the diaphragm both when loading the diaphragm and when loading the sample with a diaphragm. 2. The method according to claim 1, characterized in that when loading a sample with a diaphragm, a diagram deforms the sample — deformation of the diaphragm.