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Optimized cast components in the drive train of wind turbines and inner ring creep in the main bearing seat

Optimierte Gussbauteile im Antriebstrang einer Windenergieanlage und Wanderbewegungen des Lagerinnenrings im Hauptlagersitz
: Kirsch, J.; Kyling, H.

Volltext ()

Forschung im Ingenieurwesen 85 (2021), Nr.2, S.199-210
ISSN: 0015-7899
ISSN: 1434-0860
Zeitschriftenaufsatz, Elektronische Publikation
Fraunhofer IWES ()

Using large components made of nodular cast iron (GJS) in wind turbines enables the application of lightweight construction through the high degree of design freedom. Besides the sand-casting process, casting into a permanent metal mould, i.e. chill casting, leads to a finer microstructure and higher quasi-static mechanical properties as well as higher fatigue strength. Unfortunately, in present design methodologies specific fatigue data is only available for sand cast and not for chilled cast GJS. Thus, lightweight design strategies for large, chilled cast components are not achievable, which led to the publicly funded project “Gusswelle”. Based on material investigations of EN-GJS-400-18-LT chill cast, an optimized hollow rotor shaft is developed. The design process and the resulting shaft design are presented. The optimized hollow rotor shaft prototype will be tested on a full-scale test bench to validate the design methodology. The intended validation plan as well as the test bench setup is shown in this paper. Furthermore, the decreasing wall thickness influences the interference fit between main bearing and hollow rotor shaft. Thus, through the applied bending moment, inner ring creep is more probable to occur in the main bearing seat. The creeping behaviour is investigated with finite element simulations and a measuring method is presented.