RU1796981C - Specimens dynamic testing bed - Google Patents

Abstract

The invention relates to testing equipment, to strength tests. The purpose of the invention is to expand the functionality by providing tests not only with step loading. but also during the transition from stepwise loading to loading with damped load oscillations. The load is produced when the sample 6 collides with the weights 11, and damped load oscillations are created by the spring T2. The invention can be used in testing samples of different materials and products, 1 il.

Description

The invention relates to testing equipment, to strength tests.

A well-known stand for dynamic testing of samples (ed. St. USSR Nk 1173240, class G 01 N3 / 30, 1984), containing a base, a guide mounted on it, placed in it with the ability to move loads, grips for the sample, one of which is intended for interacting with loads, a rod connected to the second gripper, a flywheel with a rotational drive, devices for pressing the rod against the flywheel and clamps for connecting the loads to each other,

The disadvantage of the stand is that it is not feasible to test it not only with step loading, but also with the transition from step loading to loading with damped oscillations at

LOADS. ; ...; ; :. :. ; ; -: V:: - ..

The aim of the invention is to expand the functionality by providing tests not only for step loading, but also in the transition from step loading to loading with damped load oscillations.

The goal is achieved in that the stand is provided with an elastic element connecting the rod to the base.

The drawing schematically shows the proposed stand.

The stand contains a base 1, a guide 2 mounted on it, weights 3 placed therein with a possibility of movement, grips 4 and 5 for a sample 6, one of which W3 (4) is designed to interact with a load, a rod 7, a flywheel 8 with a rotation drive 9, devices 10 for pressing the bar against the flywheel; and clamps 11 for connecting the weights to each other. The stand is provided with an elastic element 12 connecting the rod 7 to the base 1, the rod 7 has an outer part and an inner centering part 13, the position of which is regulated by the latch 14. Elastic element: the element is made in the form of a spring 12 connecting the two parts of the rod. The device 10 is made in the form of a core with a coil and a pusher pressing the flywheel 8 against the surface of the rod 7. The coil of the device 10 is turned off by a switch (not shown in the drawing).

set to a predetermined position along the length of the guide. The latches 11 are made electromagnetic.

The stand works as follows. Drive 9 is turned on and flywheel 8 is accelerated to a predetermined rotation speed. Turn on the tool 1.0 and press the rod 7 to the flywheel. The rod 7 moves along the guide 2, the gripper 4 sequentially collides with the loads 3.

stepwise loading of sample 6 occurs. After a given number of weights, a switch (not shown) and trips. turns off the device 10. At this point, the elastic element 12 is deformed, and after turning off the device 10, the rod 7 makes a reciprocating movement under the action of the elastic element 12. The loads 3 connected by means of latches

11 q by gripper 4, load sample 6 with damped load oscillations. When turning on again up to 10, a new movement of the sample and its destruction after collision with

end of the guide. The initial position of the grippers is chosen so that the bond does not leave the guide when moving. To do this, rearrange part 13 on the base.

The proposed stand allows testing under new conditions - with alternating step loading with damped load fluctuations.