Heat Flow Meter (HFM)

In a heat flow meter (HFM), the test specimen is placed between two heated plates controlled to a user-defined mean sample temperature and temperature drop to measure heat flowing through the specimen. The sample thickness (L) corresponds to the actual sample dimension or to match the desired thickness of a compressible sample. The heat flow (Q) through the sample is measured by two calibrated heat flux transducers covering a large area of both sides of the specimen.

After reaching a thermal equilibrium, the test is done. The heat flux transducer output is calibrated with a standard. For the calculation of the thermal conductivity (λ) the average heat flux and the thermal resistance ® is used, in accordance with Fourier’s Law (see formulas on the right). The thermal transmittance, also known as U-value, is the reciprocal of the total thermal resistance. The lower the U-value, the better the insulating ability.

Measurement Results by HFM

Thermal Conductivity

NETZSCH HFM Systems

HFM 446 Lambda Series

The new HFM 446 Lambda Series features a standardized method for the measurement of thermal conductivity which is equally applicable in research and development and in quality assurance.