El software Proteus® opera bajo Windows® (XP Professional/Windows® 7/Ultimate/32-, 64-bit) e incluye todo lo que usted necesita para llevar a cabo medidas y evaluar los datos resultantes autónomamente. Unos menús fáciles de entender y unas rutinas automáticas nos llevan a una herramienta que es extremadamente fácil de usar a la vez que permite sofisticados análisis.
El software Proteus® tiene licencia con el instrumento y puede ser instalado en otros ordenadores.
La edición básica del software Proteus® contiene todos los criterios funcionales esperados para un software de evaluación y medida moderno para cualquier método de Análisis Térmico.
Para métodos avanzados de medida y evaluación, hay disponibles packs adicionales de software.
El Proteus 6.1 es la solución general de software para todos los instrumentos de análisis térmico de NETZSCH. La versión más nueva de Software, el Proteus 7.0 (que además funciona con Windows 8.1), incluye una gran cantidad de nuevas características. Proteus 7.0 de momento sólo está disponible para el DSC 214 Polyma.
Proteus® software uses across-the-board measurement methods which can be employed on different instruments of the same type (e.g., on any DSC instrument). This enables users ‒ with the appropriate instrument configuration ‒ to carry out measurements with multiple instruments under exactly the same conditions. If needed, the curve evaluation can even be integrated into the respective measurement method so that the evaluated curve is automatically available immediately after completion of the experiment.
The intuitive SmartMode user interface (for DSC, TGA and HFM systems, beginning with the 7th generation of the NETZSCH Proteus® software) allows for the quick and uncomplicated start of a measurement by using wizards (quick-start routines), user-defined measurement methods or pre-defined measurement methods.
AutoEvaluation (beginning with the 7th generation of the Proteus® software) is a unique evaluation routine that autonomously finds and evaluates all effects in DSC and TGA curves by means of an intelligent mathematical algorithm. It allows for different persons to always obtain the same, clear result. Experienced users can utilize the automatic evaluation result as a second opinion or employ this exceptional function to arrive at a result faster.
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 1,100 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.
DSC-BeFlat® (beginning with software version 6.1) and Advanced DSC-BeFlat® (beginning with the 7th generation of the NETZSCH Proteus® software) compensate for all influences on DSC baselines which can be related to thermal asymmetries of the DSC sensor. This results in a minimal amount of curvature in the baseline, in the μW range. TGA-BeFlat® automatically corrects instrument and buoyancy effects in the TG 209 F1 Libra® and STA 449 F3/F5 Jupiter® (for STA: Proteus® version 6.1, SiC furnace, appropriate sample carriers) and thus eliminates the need for buoyancy correction measurements.
The “specific heat” software package allows for fast and accurate determination of the specific heat capacity cp (at constant pressure) on solids, powders and liquids in accordance with standardized techniques (e.g., DIN 51007, ASTM E1269, ISO 11357) using DSC or STA instruments. In addition, this software can also be employed to carry out heat-flow calibrations with, for example, sapphire as the standard material.
The software add-on for conducting measurements with rate-controlled temperature management (mass-change-controlled TGA, i.e., RCM; and shrinkage-rate-controlled dilatometry, i.e., RCS) is well suited for increasing the resolution of superimposed effects and enhancing sample compaction for sintering processes.
Provided that the sample thermocouple is in close proximity to the sample (as is the case with NETZSCH thermobalances and dilatometers), a DTA signal can be calculated and recorded from the difference between the temperature of the sample and the temperature of the program. This allows for additional information on exothermal or endothermal processes to be gathered during the course of TGA or DIL measurements. Moreover, the c-DTA® software can also be employed for the temperature calibration of thermobalances or dilatometers.
When applying temperature modulation, which is available for the TG 209 F1 Libra®, TG 209 F3 Tarsus, DSC 214 Polyma, DSC 204 F1 Phoenix®, DSC 3500 Sirius, DSC 404 F1 Pegasus®, STA 449 F1 Jupiter® (TM-DSC), STA 449 F3 Jupiter® (TM-DSC), DIL 402 Expedis Select, DIL 402 Expedis Supreme and TMA 402 F1 Hyperion® (for TMA and DIL, beginning with the 7th generation of the Proteus® software), the linear heating rate is superimposed by a sinusoidal temperature change. This makes it possible to deconstruct the signals into reversing and non-reversing parts (DSC, DIL, TMA) and thereby separate overlapping effects ‒ for example, glass transitions and relaxation peaks (DSC) or thermal expansions and sintering steps (DIL, TMA) ‒ and to calculate activation energy(ies) from a measurement (TGA).
This extra package allows for the calculation of the density change in a material (with the initial density as a reference value) during a DIL or TMA investigation. Even measurements that finish in a molten state (in a container of sapphire, graphite or quartz) can be evaluated this way. Below the melting temperature, the density can be calculated based on an isotropic material; above the melting temperature, all influences of the container and sample preparation are taken into consideration.
AutoCalibration allows for the automatic generation of calibration curves for the DSC 204 F1 Phoenix®, DSC 214 Polyma, DSC 3500 Sirius, TG 209 F1 Libra® and TG 209 F3 Tarsus. Current calibrations are automatically loaded with consideration to the selected measurement conditions and checked for their period of validity.
Not all NETZSCH instruments can be configured with all of the above software functionalities. Please consult your customer representative for the software version available for your device.
* Different instrument types have different software configurations; the software options marked with an asterisk may be subject to extra charges when combined with certain instruments.