SU1490574A1 - Centrifugal installation for impact tests of material specimens - Google Patents

Abstract

The invention relates to the study of the strength properties of materials. The aim of the invention is to expand the operational capabilities by increasing the impact energy. The installation comprises a platform 1 with a radial guide 2, a drive 3 of rotation of the platform 1. At the end of the guide, the anvil 4 is movably mounted. The weight of the guide 5 is fixed with an offset from the axis of rotation of the platform and on which an anvil is fixed on the side of the anvil Sample 7. Along the guide, covering it and the load, there is a spring 8, fastened at one end with the anvil, and at the other end with the platform. The guide is installed with the possibility of radial movement relative to the platform and is connected to the anvil by means of a clamp. An increase in the impact energy is achieved due to the oncoming movement of the load under the action of centrifugal forces and the anvil, which, when the lock is activated, moves under the action of a spring to the axis of rotation of the platform. 1 hp f-ly, 1 ill.

Description

The invention relates to testing equipment, namely, centrifugal installations for testing material samples.

The aim of the invention is to expand the operational capabilities by increasing the impact energy.

The drawing shows the installation, general view.

The installation comprises a platform 1c of the radial guide 2, a drive 3 of the rotation of the platform 1, located on the outer end of the guide 2 of the anvil 4, placed in the guide 2 and attached to it a load 5, which is mounted offset from the axis of rotation of the platform 1 and on the sides of the anvil 4 secured the grip 6 for the sample 7, located along the power spring guide 8 and the retainer 9. The spring 8 covers the guide 2 with the load 5, is connected at one end with the anvil 4, and at the second end with the platform 1 with the rod 10. Nakoval H 4 is mounted for movement along guide 2, which is mounted in the rod 10 with the possibility of radial movement relative to platform 1 and connected to the anvil 4 in the initial position by means of a clamp 9 fixed on the guide 2. The clamp 9 is made in the form of an electromagnetic coil interacting with brake 4 as with kor. The guide 2 is made in the form of rods.

To increase the information content of the tests by testing in one cycle 1, once two samples, one of which is pre-stretched and the other is compressed, the gripper 11 for the second sample 12 on the load 5 side can be fixed on the anvil 4 coaxially to the first gripper 6 (see .drawing).

The installation works as follows.

The drive 3 is turned on and the platform 1 is unwound. When the platform 1 is unwound, the load 5 displaces the guide 2 together with the anvil 4, the grippers 6, 11, and samples 7.12 by a larger radius of rotation, thereby deforming the spring 8 by stretching. The rotation of samples 7 and 12 causes them to be loaded with mass forces from the rotation of their masses around the axis of platform 1, while the sample 7 is loaded with growing weight.

with a massive mass force, and sample 12 is a compressive mass force. When the specified rotational speed of the platform 1 is reached, when the mass forces on the samples reach the desired level, the latch 9, which separates the guide 2 and the anvil 4, is activated. Under the action of the spring 8, the anvil 4 moves along the direction 2 by a smaller radius of rotation, 5 along with guide 2 is displaced by centrifugal force to a larger rotation radius. Together with the anvil 4 and the load 5, samples 7 and 12 are displaced and their impact interaction with destruction takes place. The results of the interaction are recorded. The following experiment was carried out at a new initial speed of rotation of the platform, i.e. at new levels from mass forces, at new ratios of mass forces, which is achieved by changing the initial position of load 5 on guide 2 (with an increase in the initial radius of rotation of load 5, the absolute values of mass forces approach each other). The magnitudes of the mass forces are also determined by the shape and size of the samples 7 and 12: the mass forces increase with the length of the samples 7 and 12 and their weight, i.e. sizes,

The impact energy is increased due to the oncoming movement of the load 5 and the anvil 4, which, under the action of the potential energy of the pre-stretched spring 8, moves to the axis of rotation of the platform No. 1 1,

Claims (1)

Invention Formula I. Centrifugal unit for percussion testing of material samples, comprising a platform with a radial guide, a rotational drive drive, located on the outer end of the anvil guide, placed in a guide weight, which is mounted offset from the axis of rotation of the platform and on which is fixed to the side of the anvil The grip of the sample, located along the power spring and clamp, is characterized in that, in order to expand operational capabilities by increasing the impact energy, the spring encloses the rail with load. 5IA90574 one end is connected with the anvil, in the initial position by means of the other with the platform, the load of the weir fixed onto the guide is on the guide, the anvil. installed with the possibility of displacement-2, Installation according to claim 1, about tl and not along the guide, and guided by the fact that it has been installed with the possibility of a second specimen being radi- ated for gripping, hinged movement relative to the anvil on the anvil parties platform 14 1 and connected to the anvil coaxially with the first capture.