CS199472B1 - Method of material testing by shock torsion and equipment for this method - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for testing impact materials and an apparatus for this method.

Many parts of machines and other equipment are subject to impact twisting during their lifetime. There is no test yet to monitor the material's resistance to this type of stress. There are devices to test the material's resistance to static torsion. The measurement is similar to the tensile test, the tensile yield strength and the torsional or tensile strength are determined. skrut. Furthermore, there are devices for torsional variable testing which determine the resistance to this strain. Neither of these devices, one gives an indication of the behavior of the material under impact twisting.

These disadvantages are largely eliminated by the invention. The principle of the impact torsion testing method according to the invention is that the rod made of the test material is subjected to the impact torsion until the material breaks, measuring the energy consumed by the material until it breaks. .

The impact torsion testing method of the invention makes it possible to carry out a device according to the invention which consists of a carrier provided with a projection and attached to the shaft of a Gharpy hammer, further comprising a rotatable counter-hub provided with a projection and fitted in a bearing. a central polygon hole for receiving one end of the test rod, which at its other end is held in a central polygon hole of a fixed hub that is rigidly connected to a Charpy hammer stand.

The method of testing materials using the apparatus of the invention will provide new performance characteristics of the materials for impact twisting.

These characteristics are capable of evaluating the masses of individual materials quantitatively on the basis of the amount of energy consumed until the failure of the material under impact torsion. With regard to the rate of energy adaptation, this type of test can be classified as a dynamic test. Since the test site in the material is located by the shape of the test rod itself, these tests can advantageously also be used in evaluating e.g. effects of welding, or other local thermal effects affecting either the structural state or the energy field of the test material. The tests themselves can be used as classification, acceptance and research tests.

An example of an embodiment of an impact torsion testing device according to the invention is shown in the accompanying drawing, wherein FIG. 1 is a sectional view of a device according to the invention with a test bar clamped; FIG. 2 shows a side view of the device according to the invention, and FIG. 3 shows a test rod shown schematically.

The apparatus for performing the impact torsion testing method of the invention, connected to a Charpy hammer, according to the invention comprises a carrier 2 provided with a protrusion J and attached to the shaft of the Charpy hammer. It further comprises a rotatable counter-hub 1 provided with a projection 2, wherein the rotatable counter-hub 4 is embedded in the bearing 6. In the central polygon hole of the rotatable counterbalance 4, the test rod 2 is attached at one end. Which is rigidly connected to the Charpy 'hammer stand.

When the hammer is raised to the desired position, which defines its potential energy, the projection J of the carrier 2 moves to the same position. Upon release of the hammer from said position, this moves along a circular path and the projection 3 of the carrier 2 strikes the projection 2 of the rotary counter-hub 4 at a location of the maximum kinetic energy of the hammer corresponding to the original potential energy of the hammer. The protrusions 1, 2 ', are mutually reciprocally moved to a position which responds to the torsional resistance in the torsion of the test rod 2 made of the test material, which results in a failure of the test material. The measure for quantitative evaluation of the test material is the energy used to break it and is read directly on the Charpy hammer scale. In addition to energy, the scale can also be provided with angular measures and the screw, ie the deformation characteristic of the material, can be read from these scales.

The cross-section, and stiffness of the test-piece 2 is selected according to the maximum of j Charpy energy, and the hammer is generally dependent on the size of the diameter of the test-piece £ 2 · PÍžka cylindrical part 2 and a test bar according to the selected ^{e and} plastic properties of the material ekúšaného.

Claims (2)

CLAIMS 1. Impact torsion testing method, characterized in that a rod made of the material to be tested is subjected to an impact torsion until the material breaks, measuring the energy consumed by the material until it breaks. 2. Apparatus according to claim 1, characterized in that it comprises a carrier (2) provided with a projection (3) and mounted on a Charpy hammer shaft (1) and a rotary counter-hub (4) provided with a projection. 5 is inserted into the bearing (6), wherein the rotating counter-hub (4) is provided with a central polygon hole for receiving one end of a test rod < 7 > with Charpy Hammer Stand.