SU1352309A1 - Installation for impact tests of materials - Google Patents

Abstract

The invention relates to the study of the strength properties of materials under shock loading. The aim of the invention is to reduce the size of the test installation. The installation uses a rotary device to disperse device 3 with sample 4 before the impact of the latter with the anvil 10. This device includes w (L

Description

the flywheel 5, which is prewound up to a given speed, and the bar 7 pressed against it, fixed from longitudinal movement. Flywheel 5 has the ability to roll on the bar. The supports 11 of the shaft 12 of the flywheel 5 are placed on the device 3. The razgo1 scheme

The invention relates to a test technique, in particular, to installations for impact testing of materials.

The purpose of the invention is to reduce the size of the installation.

The drawing shows a setup for shock testing of materials.

The installation comprises a frame 1 with vertical guides 2, a fixture 3 installed in the guides 2 for fastening the sample 4, a rotary device for accelerating the device 3 with the sample 4, including a flywheel 5 with a drive 6, a rod and means for pressing the bar 7 to the side surface of the flywheel 5, made in the form of springs 8 and a clamp 9, an anvil 10, which is impacted with sample 4, with the supports 11 of the shaft 12 of the flywheel 5 placed on the fixture 3 for fastening the sample 4. To enable the creation of a complex stress state At 4, it can be provided with a bottom load 13 located on a beam 14 connected to the gripper 15. The drive 6 by a belt drive 16 is kinematically connected to the driving drum 17, having a friction link with a flywheel 5.

The installation works as follows.

Include the actuator 6 and spin the flywheel 5 to a given angular velocity. By turning the lock 9, the bar 7 is released, which under the action of the springs 8 moves towards the flywheel axis and presses the side surface of the rotating flywheel 5 to the surface of the guide 2. Rotation of the flywheel 5 due to the friction between its side surface and the surface of the guide turns into translational movement of the flywheel 5 along guide 2, with the flywheel 5 detached from the drive

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With a bar fixed against longitudinal movement and a flywheel mounted on it, compared to the known reversible plan with a movable bar and a flywheel with an immovable axle, the installation size can be reduced by about the length of the bar. 1 il.

drum 17. As a result, the device 3 for fastening the sample 4 together with the flywheel 5 moves down along the guide 2 in the direction of the anvil 10. The device 3 after a collision with the anvil 10 stops, the bottom load 13, continuing inertia, loads the sample 4 axially and bending effort. The ratio between the axial and bending forces is determined by the location of the bottom load 13 on the beam 14.

By fixing the strip from longitudinal movement and using the movement of the sample together with the flywheel 5 along it, the installation dimensions can be significantly reduced without reducing the level of reproducible loads, since in the case of reversed designation, i.e. With a movable bar and flywheel with a fixed axis, the dimensions of the installation are determined not only by the bar length, but also by the length of the section required for acceleration.

Claims (1)

Invention Formula An apparatus for shock testing of materials, comprising a frame with guides, a sample fixture mounted in the guides, a rotary device for accelerating the sample fixture, including a flywheel with a drive, a bar and a means for pressing the bar against the side surface of the flywheel, and an anvil, impacting with the sample, characterized in that, in order to reduce overall dimensions, the bar is fixed from the longitudinal movement, and the flywheel is mounted with the possibility of rolling along the bar, with the flywheel shaft bearing s on the attachment device sample.