SU920425A1 - Method of article dynamic testing - Google Patents

Description

(54) METHOD FOR DYNAMIC TESTING OF PRODUCTS

Claims (2)

The invention relates to a testing technique, in particular to methods for testing products for dynamic effects. loads. The known method of dynamic testing of products by means of percussion excitation of the first of the bodies installed in series with the subsequent transfer of impact from body to body, on the last of which test product 1 is installed. The disadvantage of this test method is the inability to reproduce alternating dynamic loads. The closest to the technical essence of the invention is a method of dynamic testing of products, which consists in the fact that, by shock loading, oscillations are arranged in series and set movingly in the direction of impact of elastically connected bodies, one of which has the tested product. The blow is struck on the first of the elastically bound bodies, with the subsequent transfer of the blow from the body to the body through the elastic elements connecting them, after which the body is subjected to an after-shock oscillation to the tested items relative to the body of greater mass. The dynamic load parameters are varied by varying the shock pulse, the mass of the oscillating body and the elasticity of the elastic elements 2. This method makes it possible to obtain single-frequency oscillations of the body with the product under test or multi-frequency oscillations with a constant ratio of the amplitudes of oscillations at different frequencies, but does not allow for testing effects of vibrodruding processes with different levels of frequency components and changing the ratios of vibration amplitudes at different frequencies during test The purpose of the invention is to expand the possibilities of changing the parameters of dynamic loading. This goal is achieved by producing shock excitation of vibrations of each body. In addition, the oscillations of elastically connected bodies are excited by both synchronous and consecutive blows to each of the bodies, as well as unilateral and opposite blows. FIG. 1 is a schematic diagram of a device implementing a method (a variant of exciting oscillations of elastically connected bodies by blows of one-sided directionality); in fig. 2 - the same, a variant of exciting oscillations by impacts of opposite direction. The device contains a base 1, to which bodies 3-5, interconnected by springs b and 7, and masters 8 with impactors 9-11, are connected to flexible connections x 2. The test article 12 is mounted on the body 4. The method is carried out as follows. From the conditions for obtaining the specified frequency and amplitude characteristics of the vibro-impact process, we select the masses of the bodies 3-5, as well as the stiffnesses of the springs b and 7. The test article 12 is attached to the body 4. Reject the impactors 9-11 on. Specified angles that determine the magnitude of the shock excitation forces of the bodies 3-5 and the levels of the effects of the bodies 3 and 5 oscillations on the body 4 by the product 12. With the simultaneous action of the impactors 9-11 on the bodies 3-5, the product 12 is simultaneously amplified -frequency components of the vibro-impact process, and in the case of successive strikes, the components of the vibro-impact process with different frequencies act on the product 4 at predetermined time intervals. Adjusting the amplitudes of the frequency components is made by changing the angle of the corresponding drummers 9, 10 or by carrying out synchronous shocks of the opposite direction, increasing the initial deformations of the springs b and 7, which expands the possibilities of controlling the amplitudes of the frequency components of the vibro-impact processes. Sequential striking of the opposite direction provides a change in the phases of the frequency components of the vibro-impact process. The application of this method provides ample opportunity to study the vibration and impact resistance of products and allows to improve the accuracy of reproduction of operational dynamic effects. Claim 1. Investigation of dynamic testing of products, namely, by shock loading, oscillations of successively arranged and elastically connected bodies are excited, on one of which a test product is installed, in order to expand the possibilities of changing dynamic loading parameters, shock excitation of vibrations of each body is produced. 2. A method according to claim 1, characterized in that the oscillation of the bodies is excited by synchronous strikes. 3. A method according to claim 1, characterized in that the excitation, the oscillations of the bodies are carried out by successive blows. four-. The method according to paragraphs. 1-3, characterized in that the excitation of the oscillations of the bodies is carried out by strikes of one-sided directionality. 5. The method according to paragraphs. 1-3, characterized in that the excitation of the oscillations is carried out by blows of the opposite direction. Sources of information taken into consideration in the examination 1. Copyright certificate. USSR № 322647, cl. G 01 M 7/00, 1969. 2. -A copyright certificate. USSR № 690352, cl. G 01 M 7/00, 1979 (prototype).