m = sample mass
cp= specific heat capacity
HR= heating rate
the specific heat capacity of a material can be calculated (according to e.g. DIN 51 007, ASTM E 1269 or ratio method) based on three measurements (baseline, sapphire, sample) by using DSC instruments (e.g. DSC 204 F1, DSC 404 F1).
The sensitivity is derived from the calibration measurement using a sapphire as a specific heat standard.
The specific heat capacity is a thermophysical property with the SI unit of Joules per kilogram and Kelvin [J kg-1 K-1]. It defines a material's ability to store thermal energy.
Among other methods (e.g., differential scanning calorimetry, DSC), the specific heat capacity can be determined by using the laser flash technique (LFA). To this end, the LFA system is calibrated using a reference sample with known specific heat capacity. Sample and reference will be measured under exactly the same conditions (dimension, temperature program, graphite coating).
The Proteus LFA analysis software calculates the temperature-dependent specific heat capacity along with the thermal diffusivity and thermal conductivity of the unidentified solid material. LFA systems with a sample changer and a very fast plate or mini tube furnace (e.g., LFA 467, LFA 467HT) allow for simultaneous measurement of up to 16 samples over a broad temperature range within a few hours.