21.04.2022 by Aileen Sammler
60 Years of NETZSCH-Gerätebau: The Thermobalance in Use at the Department of Polymer Materials at the University of Bayreuth
Learn, how the Department of Polymer Materials at the University of Bayreuth uses the thermobalance TG 209 F1 Libra® in conjunction with Kinetics Neo for the prediction of the aging behavior of plastics.
Our long-standing customer, the University of Bayreuth, Germany, also uses a TG 209 F1 Libra®. Find out in the following field report how the Department of Polymer Materials at the University of Bayreuth uses the TG 209 F1 Libra® in conjunction with the NETZSCH Kinetics Neo software for prediction of the aging behavior of plastics.
User report from the University of Bayreuth:
Resist the Ravages of Time or Predict Them?
How the Department of Polymer Materials at the University of Bayreuth uses the NETZSCH TG 209 F1 Libra®in conjunction with the NETZSCH Kinetics Neo software for prediction of the aging behavior of plastics.
Everyone knows things that get better with time. Red wine might be the first thing that comes to mind; or a beautiful, well-maintained classic car. However, no one would generally have red wine aged for 60 years since – unlike the products by NETZSCH-Gerätebau – there is no continuous striving for perfection in winemaking to ensure that such a high level of quality is achieved.
Polymer Degradation – A Challenge in Construction
In contrast with both NETZSCH and the aforementioned red wine, the properties of polymers unfortunately do not always improve over time. As plastics age, their properties often change until the material fails. On the molecular level, the atomic bonds in the polymer chains break, whereby the side groups can dissolve or failure of the main chain occurs. Post-CrystallizationCrystallization is the physical process of hardening during the formation and growth of crystals. During this process, heat of crystallization is released.crystallization, plasticizer migration and formation of StressStress is defined as a level of force applied on a sample with a well-defined cross section. (Stress = force/area). Samples having a circular or rectangular cross section can be compressed or stretched. Elastic materials like rubber can be stretched up to 5 to 10 times their original length.stress cracks, however, can also be mentioned here as aging effects.
They all have in common that they take place as a function of temperature and time, each with different kinetic reaction models. One advantage of the reactions that take place, however, is that they are often accompanied by a change in mass. Plasticizers exiting from the volume, such as gaseous products of polymer degradation, cause a decrease in weight. Following this principle, dynamic TGA measurements are used to elucidate the relationship between temperature and degradation and – based on the data obtained – a kinetic model is created which can be used for simulations under IsothermalTests at controlled and constant temperature are called isothermal.isothermal conditions.
In the current case, novel epoxy resin systems are being investigated for use in aircraft components and thus being exposed to high temperatures. These materials must withstand the given conditions, without failure, for at least the duration of the service life of the assembly, or even better, of the entire aircraft. Real exposure tests under the operating conditions, however, cannot be carried out over a period of 15 years. Thus, an alternative from the bag of tricks will be sought to predict material behavior.
Thermogravimetry as a Basis for Simulations
At the Department of Polymer Materials at the University of Bayreuth, a NETZSCH TG 209 F1 Libra® is used for such measurements. The direct temperature measurements carried out by the instrument allow for the most accurate setting of the actual temperature, even for endo- and ExothermicA sample transition or a reaction is exothermic if heat is generated.exothermal reactions. To establish simulations, a high degree of accuracy is required for inputted data sets since error propagation would otherwise multiply deviations. Thanks to the ceramic interior of the TG, even polymers with highly corrosive Decomposition reactionA decomposition reaction is a thermally induced reaction of a chemical compound forming solid and/or gaseous products. decomposition products can be characterized.
Modelling and Prediction by Means of Kinetics Neo
Most chemical reactions do not occur in a single step; the same applies to Decomposition reactionA decomposition reaction is a thermally induced reaction of a chemical compound forming solid and/or gaseous products. decomposition reactions of polymers. Depending on the polymer, a combination of parallel and serial steps may occur. By means of Kinetics Neo, models of the overall reactions can be established by combining these individual reactions. Specific parameters can be assigned to each step. The program offers both automatic optimization and manual adjustment of each value. This way, the user enjoys a maximum of possibilities. The model is established by fitting it to the actual measurement data. The evaluation is performed by outputting the R² value or the F-test.
For cases in which the model reveals a small error when compared to the measured data, predictions can be calculated based on the mathematical function of the model. Here, it becomes clear why good measurement equipment, like the TG 209 F1 Libra®, is necessary. Only through the application of accurate measurement data can a precise simulation be established that correctly represents reality.
Further applications of the TG 209 F1 Libra® at the department Polymer Engineering
In addition to the application described the TG 209 F1 Libra® is used for many other material characterizations. Industrially relevant properties are examined, such as the filler content of thermoplastics or the fiber volume content of composite materials. Also scientific questions such as the thermal stability under different atmospheres of newly developed duromers can also be answered. This versatility makes the TG 209 F1 Libra® a device that is constantly in use at the department.
We congratulate NETZSCH-Gerätebau on its 60th anniversary. If NETZSCH continues to move forward with innovation and strive for perfection, as it has in the past, we look forward to many more years of successful collaboration.
Many thanks go to the Department of Polymer Materials at the University of Bayreuth for this interesting report and the warm wishes. We, too, look forward to many more years of collaboration!
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