Find here applications, ordered by the most important thermoanalytical techniques, please make your selection.
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 | AS-062-2006 Amorphous Fe Alloy
Author: NETZSCH Applications laboratoryCrystallization and melting behavior of an amorphous alloy | |
| AS-066-2006 Mg(OH)2
Author: NETZSCH Applications laboratoryThermal behavior of magnesium hydroxide between ambient temperature and 1250°C | |
| AS-069-2006 Oxide Refractory
Author: NETZSCH Applications laboratoryThermal behavior of an oxide refractory between ambient temperature and 1500°C | |
| AS-070-2006 Soil (Concrete) Contamination
Author: NETZSCH Applications laboratoryThermal behavior of soil sample and identification of the released gases by means of MS | |
 | AS-072-2006 Tobacco
Author: NETZSCH Applications laboratoryPyrolysis of tobacco as well as identification of released gases such as benzo[a]pyrene | |
| AS-073-2006 Ceramic Varistor
Author: NETZSCH Applications laboratoryComparison of good and bad varistors by means of TG and EGA | |
| Ceramic Handbook: "TA for Ceramic Materials" Here, over 30 examples are presented for raw and building materials, silicate ceramics and glass - and, for technical ceramics, mechanical, electronic, magnetic and optical applications are illustrated. | |
| Coupling of Thermal Analysis and Gas Analysis
Author: E. Kaisersberger, E. Kapsch, E. Post, A. SchrannerFourier transform infrared spectrometry (FTIR) and Mass spectrometry (MS) are the preferred methods for a continuous gas analysis in combination with thermal analysis.
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| AS-130-2006 Hydromagnesite
Author: NETZSCH Applications laboratoryThermal decomposition and identification of the released gases by means of MS | |
| R-276-05 Improving Zirconia Ceramics through Thermoanalytical Characterization
Author: J. BlummBinder burnout and sintering behavior of green zirconia material analyzed by different thermoanalytical techniques
Ceramic Industry, September (2005) 29 | |
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