SU372428A1 - METHOD FOR DETERMINING STRESSED STATE OF OBJECTS FROM FERROMAGNETIC MATERIAL - Google Patents

Description

one

The invention relates to the experimental determination of mechanical stresses in objects made of ferromagnetic materials.

From the technical literature, a method is known for determining the stress state of objects from a ferromagnetic material by means of two overhead differentially connected electroinductive sensors of magnetic anisotropy.

The proposed method differs from the well-known fact that one sensor is installed at a controlled object at an angle of 45 ° to the directions of action of main voltages, and the other is rotated at a controlled part of the object, and extreme values of the output signal of the sensors and signal value are recorded when the sensor is at an angle of 45 ° to its positions at extreme values of the signal and from the results of measurements, the values of the main mechanical stresses are calculated. This allows mechanical stresses to be determined with greater accuracy.

The method is as follows.

One U-shaped magnetic anisotropy sensor is installed on a section of an object with a known direction of main voltages.

45 ° to them. Rotation of another sensor in a controlled area removes the anisotropy pattern before loading and after loading. At the same time, extreme values are measured and the values of principal mechanical stresses are calculated by known formulas at an angle of 45 ° to them and using known formulas.

Subject invention

The method of determining the stress state of objects made of ferromagnetic material by means of two superimposed differentially connected electroinductive magnetic anisotropy sensors, characterized in that, in order to improve the accuracy of stress determination, one sensor is mounted on the object under test at an angle of 45 ° to the directions of the main voltages and the other rotates the PA of the controlled area of the object and register the extreme values of the output signal of the sensors and the value of the signal when the sensor is located under an angle of 45 ° to its positions at extreme signal values and from measurements results calculate the magnitudes of the main mechanical stresses.