SU1099232A1 - Plant for material impact-testing - Google Patents

Abstract

1. INSTALLATION FOR IMPACT TESTS OF MATERIALS containing a dropping load, a frame with a vertical guide for the load, placed on the bottom of the frame of the anvil to set the sample of the test material, characterized in that, for the purpose of testing when combined twisting and axial shock loads, the rail is designed in the form of a screw, and the load is provided with protrusions interacting with the screw screw groove. 2. Installation under item 1, characterized in that, in order to carry out tests at different ratios of torsional and axial shock loads, it is equipped with a brake placed on the upper part of the frame with regenerative braking force, interfering with screw.

Description

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N3 The invention relates to the study of the strength properties of materials, namely, installations for impact testing of materials. A known installation for percussion tests is a material comprising a housing, a loading cylinder with a plunger and two moment drivers, each of which is suspended in the form of a rotor with a blade, a stator with an emphasis for the blade and a gripper for the sample, and a cavity between the stator and the rotor, communicated with a cavity of hydrocylindra. The device allows testing materials for impact twisting loads lj. The closest in technical support to the invention is an installation for shock testing of materials, containing a drop weight, a frame with a vertical load guide, placed on the lower part of the frame, an anvil for placing a sample of the test material. The installation allows materials to be subjected to shock compression 2j. A disadvantage of the known installations is the impossibility of performing tests under joint torsional and axial shock loads. Testing under this type of loading is associated with the need to investigate the stability of mountain workings and the destruction of rocks. The aim of the invention is to conduct tests under joint torsion and axial shock loads and at different ratios of torsion and axial shock loads. . This goal is achieved by the fact that, in an installation for shock testing of materials containing a drop weight, a frame with a vertical load guide, placed on the lower part of the frame, an anvil for mounting a sample of test material, the guide is designed as a screw, and the load has protrusions, interacting with a screw screw groove. The installation can be equipped with braking placed on the upper part of the frame with adjustable braking force, which interacts with the screw, which allows testing at different ratios of torsional and axial shock loads. With this installation, the dumped load moves not only progressively, but also rotates around its axis, as a result of which the sample is subjected to shock compression and twisting. FIG. 1 shows schematically the proposed installation general view | in fig. 2 - the same, top view. The installation comprises a frame 1 with a vertical guide in the form of a screw 2 with a screw groove 3, a drop weight 4 with protrusions 5 interacting with a screw groove 3 placed on the lower part of frame 1 anvil 6 for placing the sample 7 of the test material located on the top of the frame 1 is a brake consisting of a screw 8 of tape 8, one end of which is fixed to frame 1, roller 9, tared spring 10 connected to the second end of flax TY 8 through roller 9, and tension screw 11 to handle 12. Recording shock loads Dynamometer 13 is positioned at the sample 7. The device operates as follows. The load 4 falls down and simultaneously rotates around the axis of the screw 2. With the fully braked screw 2 being reached by the tension of the spring 10 by the screw 11 rotated by the handle 12, the load 4 has the greatest angle and linear velocity and by the moment of contact with the dynamometer 13 strikes sample 7, giving it an axial compressive load and the greatest torque for the proposed device. As a result, sample 7 is deformed and destroyed. After the destruction of sample 7, the load 4 is rotated in the opposite direction and lifted to a predetermined height. A new sample 7 is then installed, the screw 11 rotates the screw 11, the tension of the spring 10 is relaxed and the pressure of the tape 8 is pressed against the screw 2, then the load 4 is released and the sample 7 is destroyed at a new ratio between axial load and torque . Acting in this way and changing the tension of the spring 10, we study the processes of dynamic deformation and destruction of the material at different ratios between the axial load and the torque.

Claims (2)

1. INSTALLATION FOR SHOCK TESTS OF MATERIALS, containing dumped cargo, a frame with a vertical rail for the load, placed on the bottom of the frame with an anvil for installing a sample of the test material, characterized in that, for the purpose of testing under combined torsional and axial impact loads , the guide is made in the form of a screw, and the load is with protrusions interacting with the screw groove of the screw. 2. Installation pop. ^ characterized in that, in order to conduct tests at different ratios of torsional and axial shock loads, it is equipped with a brake placed * on the upper part of the frame with an adjustable braking force interacting with the screw. SU, .4 099232> I