CS258958B1 - Connection for ferromagnetic materials' structural and mechanical properties non-destructive checking - Google Patents

Abstract

Involvement for non-destructive control of mechanical properties of ferromagnetic materials materials consists of a rectifier (1), the output of which is connected to the power supply (8) to the magnetization source (2) input the power input of the amplifier (4) and the power supply bridge detector input (6). The output of the bridge detector (6) is working connected to the working input of the rectifier via the inlet (7) (1). Magnetization source (2) output is connected to the probe input (3), of which the output is connected to the working input of the amplifier (4), whose first output is associated with working input of bridge detector (6) and the output from forming circuits (5) on whose input the amplifier's second output (4) is connected Wiring for non-destructive structural-mechanical control ferromagnetic properties materials is usable in engineering research institutes with structurally-meohanic properties of ferromagnetic materials.

Description

The invention relates to a circuit for non-destructive control of the structural-mechanical properties of ferromagnetic materials.

The currently used control methods of structural-mechanical properties mainly use sinusoidal alternating magnetizations, in which the influence of permeability or conductivity is used as an evaluation parameter. DC magnetization is also used to evaluate the effects of changes in remanence or coercive force. Methods are known which utilize the simultaneous action of direct and alternating magnetization, and some physical parameter is converted to an electrical voltage that serves to evaluate or utilize the evaluation of the odd harmonic multiples of the fundamental magnetization frequency. The scope of material information by said methods of magnetization and evaluation limits the functional dependence between the magnetization method and the relevant physical quantity characterizing the structure and its properties, the depth of field penetration into the test material and the quality of the test surface of the material, for example rough or scaled. The method of evaluating the electric oscillations according to the invention arising from pulse magnetization has not been used in non-destructive control yet.

These drawbacks are eliminated by the circuitry for non-destructive control of the structural-mechanical properties of the ferromagnetic materials of the invention. It consists of a rectifier, the output of which is connected to the input of the magnetization source, to the input of the amplifier and to the input of the bridge detector, the output of which is connected via the working input to the input of the rectifier. to the input of the measuring probe, the output of which is connected to the working input of the amplifier, whose first output is

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- 2 is connected to the working input of the bridge detector and to this connection the output of the shaping circuits is connected to the input of which the second output of the amplifier is connected.

The advantages of the circuitry according to the invention by evaluating the flicker effects generated by pulse magnetization are related to the duration of the flicker, which is a fraction of the time between the two pulses applied. Using an amplifier and its circuits, it is possible to use practically all the time between two successive pulses for evaluation of the oscillation. This results in a higher effect in the content of the information obtained from the electric radiation. Against the current evaluation, it provides information on changes related to changes in relative permeability and conductivity, as well as changes that are affected by the coercive force or remanence of the measured material.

The invention and its effects are explained in more detail in the description, an example of its embodiment according to the attached drawing, which shows schematically a block circuit for non-destructive control of the structural-mechanical properties of ferromagnetic materials according to the invention.

The wiring for non-destructive control of the structural-mechanical properties of ferromagnetic materials according to the invention consists of a rectifier 1, the output of which is connected to the power supply 8 of the magnetization source 2, the power input of the amplifier 4 and the power input of the bridge detector 6. connected to the working input of the rectifier 1 via the J input. The output of the magnetization source 2 is connected to the input of the measuring probe 2, the output of which is connected to the working input of the amplifier.

4. The first output of the amplifier 4 is connected to the working input of the bridge detector 7, and to this connection is connected the output of the shaping circuits 2 to which the second output of the amplifier 4 is connected.

If the measuring probe 2 is supplied with a rectangular-magnetising frequency from the magnetization source 2, the descending and ascending playing pulses give information about the structural-mechanical properties of the test material. Their effective area, length

- 5 258 958 duration and waveform are not suitable for direct evaluation in the amplifier. Therefore, the amplifier 4 is provided with feedback correction and shaping circuits 11, which re-energize the amplified pulse to the input of the amplifier 4 with a time delay. This cycle is repeated several times, the stability of the amplifier 4 and the duration being determined by the negative feedback. The repetition rate is determined by the RC constants of the circuits, which at the same time very effectively suppress the intrinsic magnetization frequency. The resulting sine wave signal with exponentially decreasing amplitude is applied to a linear bridge detector 6 with compensation and meter. This supply voltage after rectification in rectifier 1 is compared with a ‘stabilized voltage, the so-called electrical standard.

The operation of the circuit according to the invention proceeds by converting the pulse into a sine wave with an approximately exponentially decreasing amplitude characteristic from an amplifier that operates with a variable gain over a period of time between two supplied pulses and a suitable combination of shaping circuits, feedback and RC member time constant. The frequency and duration of these oscillations is determined by the time constant of the circuits. The input circuits and other amplifier correction elements have a selected transmission characteristic so that the natural frequency of the magnetization is sufficiently suppressed. The voltage thus obtained is applied to a linear detector with compensation circuits and evaluated in a conventional manner. The registered stress changes correspond to the different structural-mechanical properties of the tested materials during non-destructive testing.

The use of the circuit according to the invention has been predicted in the control of material exchanges, heat treatment, geometric dimensions, surface layers and imperfections provided pulsed magnetization, which has a number of advantages over conventional methods, particularly in engineering, metallurgy, power engineering and high-tech -mechanical properties of ferromagnetic materials deal with.

Claims (1)

Wiring for non-destructive control of structural-mechanical properties of ferromagnetic materials, characterized in that it consists of a rectifier (1) whose output is connected by a power supply (8) to the source input (2) of magnetization, to the power input of the amplifier (4) and the bridge detector input (6), the output of which is connected to the working input of the rectifier (1), the output of which is connected to the input of the measuring probe (5), the output of which is connected to the working input The amplifier (4), the first output of which is connected to the working input of the bridge detector (6), is connected to the output of the shaping circuits (5), to which the second output of the amplifier (4) is connected.