Success with Smart Data

Huge database to identify unknown polymers using DSC

In cooperation with the Kunststoff-Institut Lüdenscheid, NETZSCH-Gerätebau offers a polymer data-base for DSC analysis.

  • 1000 data sets for different material samples
  • 157 different polymer types and blends
  • Automated identification of polymer samples

Each material is labelled with the appropriate trade name. Information about the colors and fillers is also available.

Additionally, updates and expansions of the database are offered on a regular basis.

The integration of the extensive database of the Kunststoff-Institut Lüdenscheid into the software Identify for the identification of curves makes polymer applications considerably easier for the DSC user.

Together with the automatic, user-independent evaluation of the DSC measurements by means of AutoEvaluation, a faster assignment and a more meaningful interpretation of the measurement results is possible.

Results of the identify data search for unknown polymers; On the right one can see the selection of libraries.Results of the identify data search for unknown polymers; On the right one can see the selection of libraries.

For further information on the commercially available polymers within the database, please click on the file below:

Contact: mdb@kunststoff-institut.de
Martin Doedt, B. Sc., Bereichsleiter AnalysetechnikMartin Doedt, B. Sc., Bereichsleiter Analysetechnik
How Proteus can make your lab work more efficient

What's Identify?

In the field of thermal analysis, Identify is the only software of its kind (beginning with Proteus® version 7.1; applicable to DSC, TGA, DIL, TMA and cp curves). Via database comparisons, it only takes a few seconds for Identify to identify and classify materials. With a single click, experimental curves (even ones that are not yet evaluated) can thus be checked for agreement with stored individual curves, literature data or statistical classes. The NETZSCH libraries supplied include more than 1,300 entries from the application fields of polymers, organics, food, pharma, metals/alloys, ceramics and inorganics, as well as the chemical elements. When using Identify, a hit list is produced – of the type known, for example, in spectroscopy. The various hits on the list can be integrated into the evaluation graphs with a single click of the mouse. For comparison purposes, any measurement curves can even be superimposed onto each other – even those of differing types.