SU380971A1 - BIBLIO ': - Google Patents

Description

one

This invention relates to electrical measuring technology.

The method is intended for measuring impulses of forces, stresses and deformations during the impact of metal bodies during the investigation of machines under shock loads.

There is a known method for measuring a pulse of force when striking metallic bodies using various conversion sensors that convert one or another mechanical quantity into an electrical one.

The proposed method makes it possible to increase the measurement accuracy by detecting electromagnetic radiation during the motion of free electrons of a relatively positively charged crystal lattice of metals trapped by a shock wave.

The drawing shows a diagram of a device for measuring a force pulse in this way.

The copper rod / can move freely along its axis, the passage through the holes of the fixed textolite supports 2.

The hammer core 3 serves to strike. Stop 4, limits the movement of the copper rod. Grounding 5 reduces the pickup in the rod and the input wires and electrically lengthens the copper rod.

A group of toroidal solenoids 6 captures electromagnetic radiation.

If the copper rod / was still before the impact, then when it was struck by a rod with a hammer 3, the crystal lattice captured by the shock wave was shifted for some short period of time relative to the center of mass of the free electrodes, and in the sterile impactor

electrons some small time interval due to inertia with respect to the shock-suspended crystal lattice trapped by a wave of impulses. The sonvol: is directed against each other by electromagnetic radiation, which is detected by the ground of toroidal solenoids 6, on the toroidal ferrite cores of which is wound an insulated wire. Between

There is a gap between the sterles / and solenoids, which excludes their touching.

When struck, the rubbed line arising from the transformation of electromagnetic radiation from sterile / to solenoids

6 enters through the amplifier 7 to the output device 8. For a quantitative recalculation of the impulse of force through the electric voltage, the measuring system must first be grinded using a calibration shock pulse.

Subject invention

A method for measuring a pulse of force when striking metal bodies, characterized in that, in order to increase the measurement accuracy, electromagnetic radiation is recorded when free electrons move relative to a positively charged crystal lattice of metals trapped by a shock wave.

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