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Organisationseinheit der BAM
Wir demonstrieren die Machbarkeit rückwirkungsfrei integrierter optischer Teilentladungssensorik für Aufschiebeelemente aus Silikonelastomer zur Verwendung in Kabelgarnituren. Zu diesem Zweck wurden sowohl ein Funktionsmodell eines optisch transparenten Silikon-Kabelendverschlusses mit integriertem Silikon-Lichtwellenleitersensor als auch ein rein optisches TE-Messsystem auf Basis von zwei Einzelphotonendetektoren und einer Koinzidenzschaltung (PD-COP) entwickelt, die hier vorgestellt werden. Die Leistungsfähigkeit und Stärken der optischen TE-Messtechnik zeigen sich sowohl in Kombination mit der elektrischen Messtechnik, als auch bei alleinigem Einsatz.
Viscoelastic properties of the interphase in fibre reinforced polymers - measurement and simulation
(1999)
The mechanical and electrical properties of new transparent silicone materials modified with two fluorescent dyes were investigated by measuring stress-strain behaviour, electrical breakdown strength, capacity and dissipation factor, before and after thermal ageing, as well as electrical and optical partial discharges.
Mechanical properties of the new materials are comparable to the reference and the addition of dyes stabilises them against thermal ageing. All materials are equivalent in terms of breakdown strength and capacity. The added value of transparency and fluorescence make them suitable materials for novel diagnostic applications in HV cable accessories and insulators.
The elastic properties of the single-crystal nickel-base superalloy CMSX-4 used as a blade material in gas turbines were investigated by the sonic resonance method in the temperature interval between room temperature and 1300 °C. Elastic constants at such high temperatures are needed to model the mechanical behavior of blade material during manufacturing (hot isostatic pressing) as well as during technical accidents which may happen in service (overheating). High reliability of the results was achieved using specimens of different crystallographic orientations, exciting various vibration modes as well as precise measurement of the material density and thermal Expansion required for modeling the resonance frequencies by finite element method. Combining the results measured in this work and literature data the elastic constants of the gamma and gamma' phases were predicted.
This prediction was supported by measurement of the temperature dependence of the gamma'fraction.
All data obtained in this work are given in numerical or analytical forms and can be easily used for different scientific and engineering calculations.