Absolute determination of the thermal conductivity - TCT 426
Absolute determination of the thermal conductivity - TCT 426
Thermal conductivity and thermal diffusivity are the most important thermophysical parameters for characterization of the thermal transport properties of a material or component.
The hot-wire method is an absolute method for direct determination of the thermal conductivity, based on the measurement of the temperature increase of a linear heat source/hot wire (cross-wire technique) or at a specific distance from a linear heat source (parallel-wire technique).
The hot wire and thermocouple are embedded between two test pieces, which make up the actual test assembly.
The time-dependent temperature increase after the heating current is switched on is a measure of the thermal conductivity of the material being tested.
Another variation, the so-called Platinum Resistance Thermometer Technique or T(R) Technique, is described in ASTM-C 1113.
Here an integral temperature measurement is carried out over the entire length of the hot wire; i.e. the hot wire is both heat source and temperature sensor at the same time.
The TCT 426 thermal conductivity tester enables the use of all three of the methods described in easily interchangeable, pre-wired measuring frames.
Product characteristics :
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Temperature range: RT ... 1500 °C
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Chamber-hood furnace with 12 Super-Kanthal heating elements
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Heating- and cooling rates: 0,01 K/min ... 5 K/min
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Atmospheres: air, static
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Hot-wire capacity: 0.1 ... 50 W (continuously adjustable power in 2 zones)
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· Measurement of the temperature increase with differential thermocouples
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Test piece dimensions: 250 mm x 125 mm x 75 mm (2 test pieces together make up one test assembly)
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Measuring frame for cross-wire method and parallel-wire method
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Measuring frame for T(R) technique (optional)
Absolute determination of the thermal conductivity - TCT 426
Absolute determination of the thermal conductivity of ceramic materials up to 1400°C
