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Differential scanning calorimetry (DSC) is the most frequently used thermal analysis technique alongside TGA, TMA and DMA. DSC is used to measure enthalpy changes due to changes in the physical and chemical properties of a material as a function of temperature or time. The method allows you to identify and characterize materials. Differential scanning calorimetry is fast, very sensitive and easy to use.
In this webinar, we will discuss the basic principles of DSC and present some interesting applications.
DSC analysis measures the heat flow produced in a sample when it is heated, cooled, or held isothermally at constant temperature. Melting points, crystallization behavior and chemical reactions are just some of the many properties and processes that can be measured by DSC.
DSC analysis is used for numerous applications in a wide range of industries. Examples include glass transition determination and the investigation of chemical reactions, melting and crystallization behavior.
Other DSC applications deal with the influence of additives, fillers or the processing of materials. The characteristic shape of the individual DSC curves is used for quality control.
The sensors determine the quality of the measurement and are thus the most important components of the instrument. Better sensitivity means that it is possible to detect smaller thermal effects in the sample or conversely to use smaller amounts of sample.
Another important performance property in a DSC experiment is the baseline. The baseline should be free of artifacts or drift because effects like these could overlay or hide true sample effects.