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Introduction Traditional way in the analysis of DSC operation is to model the thermophysical device by means of an electric circuit. In this approach, the construction elements of a DSC (furnace, sample holder, crucibles, etc
Introduction Melting of metals is used widely in DSC calibration. Onset point is used for the temperature calibration and the area of the peak for the calibration of a heat sensor. It is surprising thing that there are no
on a Du Pont 910 DSC cell. This was chosen not only for its sensitivity and baseline stability but also for its ease of interfacing to the in-house control and data processing system. Instrumentation The SCDSC system is
thermal characterisation of polyethylenes using differential scanning calorimetry (DSC) in a forensic context have been reported. The identification of the plastic materials in these studies has been required to link evidence to a perpetrator of a crime
cases 2 wt%. Differential scanning calorimetry (DSC) was performed under nitrogen atmosphere in the temperature range from 0 up to 150 °C using a TA Q200 series DSC instrument. Samples of ~8 mg in mass, cut from the produced plate, were closed in
imines with benzothiazole core. These investigations were carried out with DSC, POM, and XRD studies. Chemical structure of the azomethines investigated in this study is presented in Fig. 2 . Fig. 2 Chemical
crystallize. However, crystallization requires that the molecules must be able to move [ 8 ]. Crystallization process is usually divided into three phases [ 9 ]. Differential scanning calorimetry (DSC) is an established thermal analytical technique
methods to monitor in MM patients in any stages. Differential scanning calorimetry (DSC) is unsurpassed for understanding the stability of biological systems. DSC directly measures the stability and unfolding of a protein, lipid, or nucleic acid
segments. Both of these processes can be investigated using differential scanning calorimetry (DSC). The glass transition region can be investigated very well using dynamic mechanical analysis (DMA). However, Saiani et al. [ 2 ] indicate that
Treatment of water-induced curvature of the DSC heat flow rate signal
Applied to fractionated nucleation of polypropylene dispersed in water
, natural and free resource, it would be of great advantage if it could lead to any application. If two (or more) immiscible phases are present in the sample the resulting DSC signal is composed of two (or more) virtually independent contributions