With the NETZSCH TAURUS® Instruments GmbH, the product portfolio of the NETZSCH business unit Analyzing & Testing has been expanded with fire testing systems, thermal conductivity measuring devices and heat transfer coefficient (U-value) measurement instruments (Hotboxes).
AutoEvaluation by NETZSCH is an intelligent software functionality which can automatically and autonomously (not via pre-defined macro!) evaluate thermoanalytical measurement curves. This is not only helpful but also time-saving! AutoEvaluation was introduced for DSC, TGA and STA and is now available also for dL signals from Dilatometer (DIL) and Thermomechanical analyzers (TMA)!
During the ECerS-Conference 2019, NETZSCH presents the software tool “KINETICS NEO”, which is able to simulate the sintering processes of ceramic. This allows process engineers to optimize their firing processes without test-fires in a real kiln. Visitors of the NETZSCH booth have the chance to win the software.
The software KINETICS NEO and the data from thermal analysis support you with a virtual view in into your sintering process inside the kiln. It helps you to design your process to the best!
In this Video our Business Field Manager Alexander Frenzl talked about the “Digital Transformation” in the ceramics industry with Susan Sutton from BNP Media for Ceramic Industry Magazine!
We created a very valuable tool for all process engineers throughout the world of technical ceramics manufacturing.
AutoEvaluation by NETZSCH is a very helpful tool for evaluation of thermoanalytical measurements. The entire measurement is evaluated by AutoEvaluation automatically and autonomously (not via pre-defined macro!) – with only one mouse click – and just within a second. AutoEvaluation is available for DSC, TGA and now also for STA measurements. Furthermore, the adaptability of AutoEvaluation is adressed.
This article and video shows, how you can design your sintering process to the best with KINETICS NEO and the data from Thermal Analysis. Simulate before firing and speed up your sintering process up to 60%