SU1670486A1 - Device for rupture tests of body-of-rotation products - Google Patents

Abstract

The invention relates to tensile tests using centrifugal force. The aim of the invention is to provide test conditions at an extended temperature range. The device contains a vacuum chamber 9, a heater 12, a cooler 13, a temperature meter 14 installed on the vacuum chamber 9 without a gap a cover 10 with a through hole 11 in the center for accommodating a flexible shaft 7, and the area S of the hole 11 is selected from the ratio S≤0 , 1% S _к , where S _к is the internal surface area of the vacuum chamber 9. 1 Il.

Description

The invention relates to a tensile test technique using centrifugal force.

The aim of the additional invention is to provide test conditions at an extended temperature range.

The drawing shows a diagram of the proposed device, General view.

The device comprises an electromagnet suspension 1 with a core 2, motor stator coils 3 (not indicated in the drawing) located around the cap 4, under which a rotor 6 is mounted on the emergency support 5, to which the test piece 8 is attached via a flexible shaft 7. The vacuum chamber 9 'is provided a lid 10 with an opening 11. through which a flexible shaft 7 passes. On the outside surface of the vacuum chamber 9 there is a heater 12 in the form of an electric spiral, a refrigerator 13 in the form of a coil. which serves the refrigerant, and the temperature meter 14. The housing 15 of the device has a flange 16, designed to connect a pump for pumping (not shown), as well as insulating stands 17 for installing a vacuum chamber 9.

Due to the presence of a cover on the vacuum chamber and the limitation of the hole size for introducing a flexible shaft 0.1% of the inner surface of the chamber, as well as the possibility of heating and cooling of this chamber, the proposed device provides temperature measurement of the test piece by the temperature of the test chamber with an accuracy of at least 5% over a wide range temperatures, from the temperature of liquid nitrogen to the melting point of tungsten.

The device operates as follows.

The flexible shaft 7 is threaded through the hole 11 of the cover 10 and fixed at one end on the rotor 6, and the other end on the test piece 8. Then, the cover 10 is screwed onto the body of the vacuum chamber 9 so that the test piece 8 is inside the chamber 9. Emergency support 5. consisting of four sections (not shown), section-wise, the outer shoulder is mounted behind the inner shoulder (not shown) of the rotor 6 and attached to the housing 15. Then, the cap 4 is put on and air is pumped out of the housing 15 of the device. The suspension 1 is turned on and the rotor 6 is hung out in its magnetic field. Depending on the conditions under which it is necessary to test the part 8, include heating or cooling system of the vacuum chamber 9, the temperature of the test chamber 9 is automatically adjusted by the signal of the temperature meter 14. After that, the rotor 6 with the tested part 8 is spun by a rotating magnetic field created by the stator coils 3 of the induction high-frequency motor to the required speeds.

Claims (1)

Claim A device for tensile testing of parts such as bodies of revolution according to ed. Ns 855428, characterized in that. in order to ensure testing at an extended temperature range, it is equipped with a heater covering the vacuum chamber and a refrigerator with a temperature meter and a lid mounted on the vacuum chamber without a gap with a through hole in the center to accommodate a flexible shaft in it, and the hole area S is selected from the relation S <0 , 1% Sk. where S _K is the surface area of the vacuum chamber.