SU1105782A1 - Material impact testing plant - Google Patents

Abstract

INSTALLATION FOR IMPACT TESTS OF MATERIALS, containing a base, vertical guides arranged on it, a dumped mass formed by the upper load, mounted in the guides, the lower load and connected to the weights grips for fastening the sample, and mounted on the base stops for stopping the upper cargo at the end of the fall, characterized in that, in order to carry out tests on the joint action of axial and bending shock loads, it is provided with a cantilever attached to the lower grip horizontally laid beam carrying lower load. §

Description

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This invention relates to the study of the strength properties of materials, namely, installations for impact testing of materials. A known device for impact testing of materials, comprising a base, an articulated lever pivotally associated with it, a grip for fastening the sample at the end of the lever and a support for mounting the sample mounted on the base. When the lever is mounted on the stop, an inertial shock load creates in the sample the bending moment of the HP. Closest to the proposed one, there is an installation for impact testing of materials, comprising a base, guides arranged on it, a drop mass formed by an upper load, installed in the guides, a lower load, and attached grips to fix the specimen. the base stops for stopping the top load at the end of the fall. The installation allows to carry out shock tests of materials on a plant. The disadvantage of these installations is the impossibility of conducting tests for the joint action of axial and bending shock loads. The purpose of the invention is to conduct tests for the joint action of axial and bending shock loads. The goal is achieved by the installation for impact tests (materials containing a base, vertical guides arranged on it, a dumped mass formed by the upper weight mounted in the guides, the lower weight and attached to the weights grips for fastening, specimen, and mouth The stops on the basis of the upper load at the end of the fall, mounted on the basis of a stop, are provided with a horizontal beam that is cantilever attached to the lower grip and carries the lower load. The axis is displaced relative to the sample material’s axis, and the axial and bending shock loads act on the sample when the top load stops. In Fig. 1, the proposed installation is shown, general view1 in Fig. 2, view A in Fig. 1. The installation contains a base 1, vertical guides 2, located on base 1, mounted in guides 2, top load 3, bottom scientific research institute load 4, connected to loads J and 4 grippers 5 and 6 for fastening sample 7, mounted on base base stops 8 for stopping top load 3 late fall and cantilever pr Attached to the lower grip 6 horizontal beam 9, carrying the bottom load 4. The installation works as follows. Sample 7, fixed in grippers 5 and 6 together with weights 3 and 4, beam 9, is lifted to a predetermined height and dropped. As it moves downward, the load 3 slides along the guides 2 and hits against the stops 8, with the result that the gripper 5 stops moving. Upon impact, the gripper 6 with the beam 9 and the load 4 continues the motion by inertia and creates in the sample 7 a dynamic tensile load and a bending moment. The bending moment arises due to the effect of load 4 mounted on beam 9, which is eccentric with respect to the sample 7. Under the action of the axial load and the bending moment, the sample 7 is deformed and destroyed. After the destruction of sample 7, it is replaced with a new one and the test is repeated with the difference that the load 4 is installed on the beam 9 in a different position, i.e. move it relative to the axis of the sample 7, thereby changing the arm of the force. When the strength characteristics of the materials under study are changed, the installation parameters are selected by changing the weight of the load 4. Thus, when installing the load 4 at different distances from the axis of the sample 7, they are tested for axial stretching with a bending moment of various sizes, and when installing the load 4 along the axis of the sample 7 Perform a pure stretch test. In order to carry out the last type of test, the beam 9 is removed and the load 4 is placed in its place directly on the grip 6. The invention expands the types of mechanical tests of the samples, and allows to carry out strength tests under the action of impact stretching and bending. These tests are of great scientific and practical interest for materials such as rocks that are sensitive to stress concentrators. The installation allows these tests to be carried out with a wide variation in the relationship between axial and bending loads.

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Claims (1)

INSTALLATION FOR SHOCK TESTS OF MATERIALS, containing a base, vertical guides located on it, a discharged mass formed by the upper load, installed in the guides, the lower load and grippers connected to the loads for securing the sample, and the supports installed on the base to stop the upper load in end of fall, characterized in that, in order to conduct tests for the combined action of the axial and bending shock loads, it is provided on a console horizontally attached to the lower grip a born beam carrying a lower load.