SU767574A1 - Method for measuring mechanical pulse stresses - Google Patents

Description

The active stage of the strike, characterized by the occurrence of a pulsed mechanical stress in a ferromagnet, begins.

During the active phase of a shock duration, the pulsed mechanical voltage increases from zero to an amplitude value, while the induction of the magnetic field of the marks decreases correspondingly from the initial to the minimum, which is illustrated by the section BV of graph B (t). At the time point, the active stage of the strike ends, while the pulsed mechanical voltage in the ferromagnet reaches the amplitude value Ted, and the induction b of the magnetic field of the tags is minimal.

After the end of the active stage of the impact, at the moment t - o, the passive stage of the impact utn / begins, during which the pulsed mechanical voltage decreases, and the magnetic field of the labels is increased by the development of reversible displacement of the boundaries and reversible enemy vectors: the magnetization of the ferromagnet domains.

At time point b, the end of the passive stage occurs; this pulsed mechanical stress becomes equal to nyhw, and the koyen induction of the magnetic field of the mark is equal to BJ / II,. Plot VG of plot B (-b) corresponds to the change in the induction of the magnetic field of the tags at the passive stage of impact, and plot Pf to the state of magnetic labels after the completion of the process of impact. It is obvious that b, so the values of the amplitude of the voltage of the shock pulse measured by the known method according to the final induction of the magnetic PA1 labels, are less significant than the actual ones.

To ensure that the value of I1 of the magnetic field of the mark equal to b is stable at the passive stage and thereby improve the measurement accuracy, the amplitude of the shock pulse voltage is reduced by the final induction of the magnetic field of the tags on the magnetic marks during the passive stage of the impact from the moment

if, act by alternating magnetic field. The intensity of this field must be such that it cannot demagnetize ferromagnets with a high level of stress-strain state, i.e. reduce the induction of the magnetic field of the marks at the beginning stage of the passive stage, impact, but partially demagnetize ferromagnets with a low level of stress-strain state in the final stage of the passive stage impact and thereby increase the induction of the magnetic field of the tags due to reversible processes of displacement and rotation during a fall mechanical

5 voltage in a ferromagnet. It has been established that the magnitude of the intensity of an alternating magnetic field should be 0.05-0.1 of the coercive field of a ferromagnet. State

0 magnetic marks on the passive stage of the impact under the action of a variable magnetic field and after the completion of the process of impact are described, respectively, to the sections of the bus pattern and the graph.

Claims (2)

Invention Formula A method for measuring pulses to excise stresses, consisting in applying magnetic marks on a ferromagnet by local magnetization and recording the final induction of a magnetic field 5 of these labels under the action of a pulse of force, characterized in that, with a circuit for improving the accuracy of measurement, in it the magnetic labels are affected by an alternating magnetic field of strength equal to 0.05-0.1 of the coercive force of the ferromagnet, and the moments of occurrence and termination of the action of alternating the magnetic field is synchronized, respectively, with the beginning and end of the pulse strength . . Information sources, WCO attention during examination 1, USSR inventor's certificate 0 W 381925, c. OIL 1 / 12.14.03.64. 2. Authors certificate of the USSR 255820, cl. G OlL 1/12, 05.04,52 (prototype).