CS247002B1 - Connection for measuring and regulation of a crack propagation in electrically conductive materials namely suitable for breake-mechanical tests - Google Patents

Abstract

The solution concerns fracture-mechanical tests properties of materials and solves the problem increasing measurement accuracy. The essence of the solution is that it is measured object, e.g., sample, component, it consists of two measuring bridge arms powered by a constant source current. The other two arms of the bridge they form thermally stable resistors with a potentiometer to balance the bridge. At the beginning the measurements are both sections of the measured body, both the section measured and compared. Any unbalanced bridge will be removed adjusting the mount of said potentiometer. The propagation of the crack in the measured section is obtained on the bridge diagonal signal proportional to the change the resistance of this section and hence the crack length. Wiring can be used in laboratories and testing facilities, mainly in implementation fracture-mechanical tests of materials and other similar tests.

Description

The invention relates to fracture-mechanical properties testing of materials and solves the problem of increasing measurement accuracy.

The known direct current methods used for this purpose have a measuring accuracy influenced by fluctuations in the resistance of the measured material, due to temperature fluctuations caused both by Joule heat when the current passes through the object to be measured and ambient temperature fluctuations. Another disadvantage of these methods is the need for a constant reference voltage source. These deficiencies therefore force measurements to be made after the "stabilization" of the conditions, resulting in high demands on time and energy losses.

The above drawbacks are eliminated by connection of the measurement and control of the spread of cracks in the electrically conductive material, particularly suitable for the test of fracture-mechanical properties of which, it is characterized in that the source kionstantného the DC ^one current is connected to the test telesoi forming the first two arms of the measuring bridge, as well as thermally stable resistors with a potentiometer, forming the other two arms of the bridge. The output of the potentiometer and the connection of the measuring probe arranged between the first legs is connected to a signal amplifier. The output of the signal amplifier is connected to the crack length indicator, the recorder and the load controller whose output is connected to the control panel of the tester.

An advantage of the present invention is a substantial increase in measurement accuracy by eliminating the effect of temperature changes on the measured piredmet. Wiring measurement, which is the subject of protection, also has the advantage of uniformly distributing current density across the cross section of the measured body, making it more accurate than measuring the dimensions of a crack by an alternating method, use higher frequencies !.

The drawing shows a block diagram of the circuit that is the subject of the Protection.

The connection for measuring and controlling crack propagation suitable for testing fracture-mechanical properties of materials is characterized in that the test unit 2 constituting the first two arms of the measuring bridge is connected to the constant-current source 1, one of which represents the measured section 4 and the other is the compared section 3. Thermally stable resistors 5 and 6 with potentiometer 7 are also connected to constant-current source 1, which form the other two arms of the measuring bridge. The output of the potentiometer 7 and the connection of the measuring probe arranged between the first legs is connected to the signal amplifier 8. The output of the signal amplifier 8 is connected to the crack length indicator 9, the recording apparatus 10 and to the input of the load regulator 11. Its output is connected to the control panel 12 of the tester 13 and the signaling member 15. The wiring function and measurement operation is as follows: ' _n

From the constant direct current source 1, the current flows through the sample body 2. The compared section 3 represents one resistor, the measured section 4 again a second resistor. Both sections form two arms of the measuring bridge. The other two arms of the measuring bridge are two thermally stable resistors 5 and 6 with a potentiometer 7. After connection of the measuring probe, a zero signal indicated by the indicator 9 is set on the bridge diagonal 7 by the potentiometer 7. After amplifying the signal with amplifier 8, it is fed to the crack length indicator 9, the recording apparatus 10 and to the input of the load regulator 11. The output of the controller 11 through the control panel 12 of the tester 13 regulates the amount of load force F 14, which causes a crack to form on the sample 2. After reaching the desired crack length, the program controller 11 'switches off the tester 13. the crack propagation during long-term tests shall be recorded by the registration apparatus 10.

The invention can be used in laboratories and testing rooms, in particular for performing fracture-mechanical properties tests of electrically conductive materials.

Claims (1)

Wiring for measuring and controlling crack propagation in electrically conductive materials, suitable in particular for fracture-mechanical tests, characterized in that a test body (2) forming the first two arms of the measuring bridge and thermally stable resistors is connected to the constant-current source (1j). (5 and 6) with a potentiometer (7) forming the other two arms of the measuring bridge and output from the potentiometer (7) OF THE INVENTION and the connection of the measuring probe arranged between the first legs is connected to a signal amplifier (8), wherein the output of the amplifier (8j of the signal is connected to the crack length indicator (9j), the recording apparatus (10) and the load regulator (11). the output is connected to the control panel (12) of the tester (13) and the signaling member (15m).