SU1415141A1 - Load regulator for centrifugal machine for fatigue test of specimen in circular bend - Google Patents

Abstract

The invention relates to the field of materials testing, to installations For testing samples of materials for fatigue under circular bending. The purpose of the invention is to expand the functionality by providing loading of the sample with a smooth increase of the force on it, as well as ensuring software loading. Lever 4 with inertial masses 5 is unwound around the axis of active grip 1, creating a circular flexural load on the sample. Liquid 8 in the cavity of the lever through the choke 7 under the action of inertial forces from the part of the cavity located on the side of the active grip from the throttle enters the opposite part of the cavity, increasing the load on the sample. A change in the throughput capacity of a drossel ps for a given program allows the software to increase the load on the sample. 1 hp f-ly, 2 ill. Y (L

Description

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The invention relates to the field of testing materials, to installations for testing samples of materials for fatigue in circular bending. The purpose of the invention is the expansion of functional capabilities by ensuring the loading of the sample with a smooth increase of the force on it, as well as the provision of software loading.

Figure 1 shows the general scheme; regulator; in FIG. 2, node I in FIG.

I The load regulator contains an active i gutter 1, on the upper end of the first I on the bearing 2 there is a ring of 1 to 3, into which a hollow lever 4 is screwed. Inside and outside of the lever 4 there is a cut I thread. Inertial masses 5 are able to move externally along the thread to set the load on the sample I Inside the lever 4, plugs 6 are installed on both sides, and a certain throttle 7 is fixed at a certain I distance from the center of rotation of the lever 4. From the axis of rotation of the lever from the throttles, a liquid 8, for example, mercury, is fed.

Due to the fact that the active gripper does not rotate, contact rings can be mounted on it to supply electrical voltage, and removable brushes can be installed on a lever (not shown). In this case, instead of liquid 8, a low-melting alloy of the Wood's type is used, and to heat it, a spiral is fed to the lever, fed from the sliding contacts, which allows loading with variable intensity. With active gripper 1, several similar levers may be associated, which allows the load to be regulated within wider limits.

The load regulator works as follows.

The inertial masses 5 are set in a predetermined position on the lever 4 and the lever 4 is unwound around the axis of the active gripper 1. In this case, the inertial masses 5 through the bearing 2 and the active gripper 1 load the sample. Under the action of inertial forces, liquid 8 begins to overflow from the part of the cavity located closer to the center of rotation through the calibrated orifice of the throttle 7 to the opposite part of the cavity, gradually increasing the unbalance and, accordingly, the load on the sample. The rate of flow of the fluid, depending on the diameter of the opening of the throttles, determines the rate of increase in stresses in the sample. After the sample breaks, the lever 4 is wrapped in the sleeve 3 with the other end, and the device is ready for the HOBbiM test.

When making throttle adjustable, for example, with a solenoid valve powered by sliding contacts, it is possible according to a predetermined program to pass a fluid through the throttle, adjusting the load on the sample.

Claims (2)

1. Controller load to the centrifugal machine for fatigue testing of the sample in a circular bend, including an active grip and perpendicular to its axis and one end connected to it with the ability to rotate around this axis a lever with inertial masses mounted on it with the possibility of longitudinal movement and fixation in a predetermined position, characterized in that, in order to expand the functionality by providing loading of the sample with a smooth increase of the force on it, a partially filled well is filled in the lever the axial cavity, and the regulator is provided with a cavity installed and a choke separating it into two parts for transferring fluid from one part of the cavity to another. 2. Load control according to claim 1, which is different. In that, for the purpose of providing software load, the choke is equipped with an adjustable orifice. Phage. 2