Professorship Machine Elements and Product Development
Publications
Professorship Machine Elements and Product Development 
Publications of the professorship Machine Elements and Product Development
Nr. Title Type Author Year ResearchGate
1Fretting fatigue of cast iron and aluminium - A strength assessment method based on a worst-case assumptionArticle in trade journal, refereedKnabner, Denny* et al.2024
2Fretting fatigue of shafts under varying contact pressure and creep slip conditions in bearing-shaft contactsConference contribution, refereedKnabner, Denny et al.2024
3Consideration of fretting fatigue in the strength concept of the FVA guidelineConference contribution, not refereedKnabner, Denny et al.2024
4Plain fretting crack initiation - experimental and numerical fracture mechanics analysesConference abstractKnabner, Denny et al.2023
5Robust calculation method for fretting fatigue strength assessment of stell, cast iron and aluminum contactsConference abstractKnabner, Denny et al.2023
6Comparative study of crack initiation criteria for flat–flat contacts subjected to fretting fatigue of drive-train componentsConference contribution, refereedKnabner, Denny* et al.2022
7Development of a calculation method for the fail safe design of steel-steel contacts under fretting fatigueConference contribution, not refereedKnabner, Denny* et al.2022
8Development of a calculation method for the fail safe design of steel-steel contacts under fretting fatigueConference contribution, not refereedKnabner, Denny* et al.2022
9Fretting fatigue strength assessmentConference contribution, not refereedKnabner, Denny* et al.2022
10Calculation method for the fail-safe design of steel-steel contacts subject to fretting fatigue based on a worst-case assumptionArticle in trade journal, refereedKnabner, Denny* et al.2022
11Fretting fatigue of multiaxially loaded shrink-fit connections – the effect of material sensitivity on fatigue strengthConference contribution, refereedSuchy, Lukas* et al.2022ResearchGate
12Tribological adaption of a failure hypothesis for fretting fatigue based on the local parameters slip amplitude and contact pressureConference contribution, refereedKnabner, Denny* et al.2022

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