On an experimental-computational approach for localised durability assessment of sliding contacts
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in: Wear, Jahrgang 486-487.2021, Nr. 15 December, 204068, 2021.
Publikationen: Beitrag in Fachzeitschrift › Artikel › Forschung › (peer-reviewed)
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TY - JOUR
T1 - On an experimental-computational approach for localised durability assessment of sliding contacts
AU - Pusterhofer, Michael
AU - Grün, Florian
N1 - Publisher Copyright: © 2021 The Authors
PY - 2021
Y1 - 2021
N2 - Several approaches exist to manage the difficult task of assessing the time point of failure of a sliding contact. However, limitations to the freedom of the system design or the consideration of the loading history reduce the applicability of previous developments. Combined computational-experimental approaches, as they are already presented in literature for the prediction of stable linear wear, can provide much accurate results, also for the prediction of destabilization of tribo systems. The authors use such a combined approach to transfer the durability behaviour from an experimental model system (Ring-on-Disc) onto an arbitrary target application (Journal bearing geometry) with the same material combination. Internal tribo system interactions between the system components are obtained by the experimental model tester, while the consideration of different hydrodynamic and asperity contact pressure at the target system is managed in a computational way. With a cumulative damage approach, the different local load histories can be evaluated. The results visualize the locations on the journal bearing shell where destabilization, regarding a mild-severe wear transition or a seizure event with friction peak, will occur first. In combination with the validation tests at the journal bearing-target application it turns out, that already at a low cumulative damage coverage a macroscopic observable destabilization of wear and friction properties occurs.
AB - Several approaches exist to manage the difficult task of assessing the time point of failure of a sliding contact. However, limitations to the freedom of the system design or the consideration of the loading history reduce the applicability of previous developments. Combined computational-experimental approaches, as they are already presented in literature for the prediction of stable linear wear, can provide much accurate results, also for the prediction of destabilization of tribo systems. The authors use such a combined approach to transfer the durability behaviour from an experimental model system (Ring-on-Disc) onto an arbitrary target application (Journal bearing geometry) with the same material combination. Internal tribo system interactions between the system components are obtained by the experimental model tester, while the consideration of different hydrodynamic and asperity contact pressure at the target system is managed in a computational way. With a cumulative damage approach, the different local load histories can be evaluated. The results visualize the locations on the journal bearing shell where destabilization, regarding a mild-severe wear transition or a seizure event with friction peak, will occur first. In combination with the validation tests at the journal bearing-target application it turns out, that already at a low cumulative damage coverage a macroscopic observable destabilization of wear and friction properties occurs.
UR - http://www.scopus.com/inward/record.url?scp=85112758815&partnerID=8YFLogxK
U2 - 10.1016/j.wear.2021.204068
DO - 10.1016/j.wear.2021.204068
M3 - Article
VL - 486-487.2021
JO - Wear
JF - Wear
SN - 0043-1648
IS - 15 December
M1 - 204068
ER -