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Products | 3R TQC

3R TQC

The group of 3R TQC products is designed for a non-destructive measurement of strength, hardness or other material properties. The products can be used in situations when it is necessary to know the material properties; either due to the continuation of a production process, of the ability to ensure particular material properties to customers...
3R TQC System is designed for a non-destructive measurement of strength, hardness or other material properties.

Advantages

Quickness - measuring usually takes less than 1 second; even shorter measuring time is possible.

Accuracy - The accuracy is on the same level with traditional testing methods (tensile test, hardness test, ...)

Non-destructiveness - Thanks to 3R TQC a 100 percent incoming and outgoing inspection of material properties can be performed also in situations where it had not been possible or where it had been too expensive. It enables also continual quality recording.

Sensitivity and reliability - The usage of a multi-frequency eddy-current measuring method together with special mathematical models and highly efficient algorithms ensures high sensitivity and reliability.

Simplicity and user-friendliness - Simplicity was one of the important aspects which were taken into account during the development of the 3R AMI software. User-friendliness belongs to our most important criteria.

Principle - a multi-frequency eddy-current measuring method is used for data acquisition. The method is suitable with all electrically conductive and/or magnetic materials. The obtained measured data are automatically processed with integrated mathematical models and algorithms.

Target values - Among the characteristic measured values belong mechanical material values, e.g. yield strength, breaking strength, uniform elongation, elongation at break, hardness etc., as well as the testing of the individual structural constituents of materials.

Hardware - the 3R TQC system was developed by 3R Technics specifically for the eddy current device MAGNATEST® D from the Foerster Company . The software enables a non-destructive measurement of strength, hardness or other material properties.

Applications - Both static and dynamic measurements are possible. The tested material can be of various shapes: from plates and strips of sheet metal through wires, rods and pipes to various profiles and parts.

3R TQC Standard

The software contains a complex mathematical model, which ensures high accuracy and stability. Six or more target values can be recorded simultaneously. The measurement hardware is operated automatically.

3R TQC Standard T

The software contains a complex mathematical model, which ensures high accuracy and stability. Six or more target values can be calculated simultaneously. Due to the data loading from a text file the software is independent from the measuring hardware and can therefore be used to calculate arbitrary target values from various spheres of business or industrial sectors.

3R TQC Basic

The software includes a simplified mathematical model, which results in the advantage of smaller number of calibration samples. It is designed for no more than 6 target values. The measurement hardware is operated automatically.

3R TQC Basic T

The software includes a simplified mathematical model, which results in the advantage of smaller number of calibration samples. It is designed for no more than 6 target values. Due to the data loading from a text file the software is independent from the measuring hardware and can therefore be used to calculate arbitrary target values from various spheres of business or industrial sectors.

3R mTQC

3R mTQC software enables multitasking with several 3R TQC systems, and thus to perform measurements with several measuring heads or measuring devices simultaneously. The devices can also be centrally controlled, configured and managed. Data obtained from all the devices are collected together and can be further processed. E.g. measurements of mechanical material properties can be performed on several production lines simultaneously and coordinated from one place.