Important Factors for Selection of Suitable DSC, TGA and STA Crucibles for Your Sample

The DSC crucible should have a flat bottom and be made of a material with a high thermal conductivity. This guarantees optimum heat transfer and low temperature gradients between the sample, crucible and sensor.
The crucible should be made of an inert material in order to prevent reactions with the sample in the programmed temperature range. Exceptions are crucibles for which a catalytic effect on the sample is desired (e.g., copper crucible for OIT tests, etc.).
The crucible should not exhibit anyphase transitions or other effects in the programmed temperature range; the melting point or fusion temperature must exceed the maximum application temperature to a sufficient degree.
The dimension, shape and specific heat of the crucible should be optimized to achieve and/or maintain the highest caloric sensitivity and lowest time constant for the measuring system. Optimized parameters will result in sharp, well-defined and clearly separated peaks.
Crucibles should be reusable, especially special ones for specific applications.