SU1401335A1 - Installation for determining flow characteristics of viscoplastic materials - Google Patents

Abstract

The invention relates to testing equipment, in particular, to installations for determining the rheological characteristics of plastic materials. The aim of the invention is to improve the accuracy of the measurement of the shear stress during shock loading. The installation contains a movable 3 and a fixed 4 semi-matrix installed with an end gap between them, into which a detachable insert 9 is inserted, made in the form of two half-rings connected to the frame I by means of springs 13 fixed in the initial closed state by means of a stopper 14. A device for applying shear to the movable half-matrix 3, made in the form of a tandem 15, interacts with the stopper 14. The insert 9 prevents the test material 2 from entering the gap between the half-matrix 3, 4, and thus at the moment of shear, the initial cross-sectional area of the material under study is maintained. 2. 2 Il.

Description

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The invention relates to a testing technique, namely to installations for determining the rheological characteristics of synthetic materials.

The aim of the invention is to improve the accuracy of the measurement of the shear stress under shock loading.

FIG. 1 shows the installation, general view; in fig. 2 is a section A-A in FIG. one.

The installation comprises frame 1, a matrix for accommodating test material 2, including movable and fixed semi-matrices 3 and 4, installed with an end gap between them. In the movable semi-matrix 3 there is a punch 5 made in the form of a wedge abutting the frame 1, and in the fixed semi-matrix 4 there is a punch 6 associated with the actuator 7 for static compression of the test material 2. The moving semi-matrix 3 is fixed on the frame 1.

In the gap between the semi-matrix 3 and 4 there is a split insert 9, made in the form of two half-rings 10 and II pivotally interconnected, connected to frame 1 by means of springs 12 and 13. Semi-rings 10 and 11 are fixed in the initial closed state by means of stopper 14, made in the form of a pivot pin mounted with the ability to interact with the device for applying shear to the movable semi-matrix 3, which is an indicator 15, on the bar of which 16 there is a load 17 that has the possibility of fixed movement no. In the initial position, the mandrel 15 is held by the movable support 18.

The installation works as follows.

The insert 9 is placed into the gap between the semi-matrix 3 and 4 and the cavity under study is loaded into the plastic material 2 into the cavity formed by the above elements and punch 6. Then the punch 5 is pushed into the moving semi-matrix 3 and the punch 6 is pushed to the stop of the wedge 5 to frame 1, creating a predetermined compressive pressure of the material under study 2. Thanks to liner 9, test material 2 will not enter the gap between semi-matrices 3 and 4 and thus the initial area of cross section will be maintained at the moment of shear th section of the test material 2.

The start of the tomb 15 is carried out by

retraction of the abutment 18. In the lower position, the dial 15 acquires the greatest speed and, interacting with the stop 14, rotates it, while the half rings 10 and 11 open up under the action of the springs 12 and 13. Simultaneously, an impulse occurs.

application of the load to the movable semi-matrix 3 from the side of the mandrel 15, resulting in shear deformation of the material 2 as a result of movement of the movable semi-matrix 3.

When moving the movable half-matrix 3 relative to the top of the wedge of the punch 5, the kinematic energy of the tandem 15 is almost completely affected by the shear deformation in the plastic material 2. According to the results

shear area of the material and the energy expended in deforming material 2, calculate the shear stress.

Claims (1)

Invention Formula An installation for determining the rheological characteristics of plastic materials containing a matrix for accommodating the test material, including those installed with an end gap between a movable and stationary semi-matrix with punches placed in them, a drive for static compression of the test material associated with a punch placed in a stationary matrix, a device for applying shear force to the movable semi-matrix and a moving semi-matrix movement indicator, characterized in that the purpose of improving the measurement accuracy of shear stress under shock loading, it is equipped with a detachable liner installed in the gap between the semi-matrices, made in the form of two pivotally connected between both half-rings, spring-loaded in the direction of their opening, and a stopper for fixing the half-rings in the initial closed state, interoperable with a device for applying shear to a movable half-matrix. FIG. 2