Finden Sie hier Anwendungsbeschreibungen, sortiert nach den wichtigsten thermoanalytischen Methoden.
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 | Thermal Characterization of Photovoltaic Materials Our Solutions for Renewable Energy | |
| Poster: "Thermal Properties of the Elements" | |
| AS-101-2006 EP Powder Coating
Autor: NETZSCH Applications laboratoryInvestigation of ion viscosity during melting and curing of a powder paint | |
 | AS-124-2006 Polyester Resin on a Mineral Wool
Autor: NETZSCH Applications laboratoryInvestigation of the curing behavior of polyester resin as binder of rock wool insolating material | |
| AS-131-2006 Epoxy Resin
Autor: NETZSCH Applications laboratoryInvestigation of the curing reaction of a epoxy resin with both techniques, DSC and DEA | |
| R-284-06 Optimale Aushärtung ist gefragt
Autor: S. KnappeThe curing behavior of a clear coat, powder paint and liquid acrylic paint is studied by means of DEA
Farbe und Lack, 8 (2005) 34 | |
| R-285-06 Cure Monitoring of Paints by Dielectric Analysis - Even in situ
Autor: S. KnappeThe curing behavior of a clear coat, powder paint and liquid acrylic paint is studied by means of DEA
paint & coatings industry, september (2005) 26 | |
| R-239-03 Following Cross-linking
Autor: S. KnappeOptimized paint curing by means of dielectric and kinetik analysis
Farbe & Lack, 109 (2003) | |
| R-238-03 Real-Time UV cure monitoring - dielectric and infrared spectroscopy analyses show close linear correlation
Autor: K. Zahouily, C. Decker, E. Kaisersberger, M. GruenerPhotopolymerization kinetics of UV curable coating systems have been studied by real-time infrared spectroscopy (RT-FTIR) and in situ dielectric analysis (DEA)
European Coatings Journal, 11 (2003) 18 | |
| R-235-03 Vernetzung verfolgen
Autor: S. KnappeOptimized paint curing by means of dielectric and kinetic analysis
Farbe & Lack, 9 (2003) 18 | |
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