CS258956B1 - Connection for ferromagnetic materials' crack detection checking by means of magnetic powder method - Google Patents

Abstract

Connection for detectoscopic control ferromagnetic materials magnetic the powder method consists of a source with a rectifier (1) that is connected to the power supply switch and start circuit input (5) and to the capacitor input (2). Exit the capacitor (2) is coupled to the test one ferromagnetic material (3) with which it is used is connected with its output by a time circuit (6) it is connected to this connection electronic switch input (4). Exit the electronic switch (4) is connected to working input of switching and starting circuit (5) whose output is connected to time circuit input (6). Wiring for ferromagnetic defectoscopic inspection magnetic powder method is usable in the engineering and metallurgical industries and at special workplaces and institutes, where it is necessary to determine the surface imperfections on ferromagnetic materials.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a method for defectoscopic inspection of surface imperfections of ferromagnetic materials by the magnetic powder method.

The magnetization methods used hitherto in the mobile devices used for this control method utilize the passage of alternating current through the test material to create a suitable magnetic field. The current intensity is of the order of hundreds of amperes. Despite being mobile, these devices have considerable weight and are energy intensive. However, their main disadvantage is the heating of the test material, which may affect the structural mechanical properties and damage its opal surface at the locations where the electrodes are applied, through which the magnetizing current is introduced. This damage is inadmissible in particular when testing the final products, and furthermore this method excludes the possibility of using the method in the verification tests in the testing of assembled units or structures on construction sites and the like.

These drawbacks are eliminated by the wiring for defectoscopic inspection of ferromagnetic materials by the magnetic powder method according to the invention. It consists of a rectifier source which is connected to the power input of the switching and starting circuit and to the capacitor input, the output of which is connected to the test ferromagnetic material to which the time circuit is connected to its output. the input of the electronic switch is connected, the output of which is connected to the working input of the switching and starting circuit, the output of which is connected to the input of the time circuit.

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The advantages of the wiring according to the invention are the avoidance of damage to the structure and properties by heating, the damage to the quality of the opal surface at the points of the power supply lines, especially for the finished parts. Furthermore, low weight, low energy consumption, and possibly independence from the network by built-in own power supply, allows high mobility and operability of testing not only in laboratory and workshop, but especially in field mounting conditions.

BRIEF DESCRIPTION OF THE DRAWINGS The invention and its effects are explained in more detail in the accompanying drawing, which illustrates schematically a block diagram for defectoscopic inspection of ferromagnetic materials by the magnetic powder method of the invention.

The magnetic powder detection method for defectoscopic inspection of ferromagnetic materials according to the invention consists of a rectifier source 1, which is connected to the power input of the switching and starting circuit and to the capacitor input 2. The capacitor output 2 is connected to the test ferromagnetic the timing circuit 6 is connected to the output 2, the input of the electronic switch 4 is connected to this connection. The output of the electronic switch 4 is connected to the working input of the switching and starting circuit 2, the output of which is connected to the input of the timing circuit 6.

The test ferromagnetic material 1 is magnetized by a circular magnetic field generated by the current discharge of the charged capacitor 2. The current passage occurs in the closed electrical circuit of the test component after a certain time delay which prevents damage to the test ferromagnetic material 2 ^{in the} ops. by heating. The electronic switch 4 is a power thyristor or transistor whose switching cycle is derived from the time circuit 2 dependent on the closing of the electrical circuit by the ferromagnetic material 2 ^{and the} voltage on the capacitor 2. This time circuit 6 controls the switching and starting circuit 2 of the power switch. The variable time constant of the switching and starting circuit 2 adjusts the speed of the periodic magnetization cycle. The power supply is derived from the transformed voltage of the light network taken by the ζθ rectifier source

1. Transverse and longitudinal magnetization is realized by applying current in directions perpendicular to each other and surface defects are indicated by pouring the tested surface of the component with a magnetic suspension common for non-destructive magnetic powder testing ČSN 01 5015 ·

The connection to the diphectoscopic inspection of ferromagnetic materials by the magnetic powder method according to the invention can be used in the engineering and metallurgical industry and in special workplaces and institutes where it is necessary to detect surface imperfections on ferromagnetic materials.

Claims (1)

SUBJECT OF THE INVENTION Connection for diphthoscopic control of ferromagnetic materials by the magnetic powder method, characterized in that it consists of a source with a rectifier (1), which is connected to the power input of the switching and starting circuit (5) and to the input of the capacitor (2), test ferromagnetic material (5), with which the time circuit (6) is connected to its output, and to this connection is connected the input of electronic switch (4), whose output is connected to working input of switching and starting circuit (5), whose output is connected to timing circuit input / 6 / ·