Archivio Istituzionale della RicercaFatigue life calculation of a metal component accounts for different phenomena. External factors, such as load type, as well as internal microstructure, play a major role in determining fatigue failure. The present paper explores the relationship between micro-inclusions in hard steels and fatigue behaviour. Tension- compression and rotating bending tests were performed on two steel alloys with different grades. Micro- inclusions presence and characteristics are quantified by a non- destructive SEM technique. The stress field around micro- inclusions is quantified by Eshelby’s model. A microstructural study is applied to relate failure and microinclusion parameters. This approach leads to the identification of a modified life model and stress intensity factor in the two loading cases.
MICRO-INCLUSIONS AND LOADS EFFECT ON METAL FATIGUE: A MODIFIED LIFE ESTIMATION MODEL THROUGH EXPERIMENTAL AND ANALYTICAL INVESTIGATION / Sesana, Raffaella; PESSOLANO FILOS, Irene; Oyarzabal, Nicolas; Uva, Andrea. - ELETTRONICO. - (2020), pp. 297-308. (Intervento presentato al convegno IRF2020: 7th International Conference Integrity-Reliability-Failure tenutosi a Funchal, Madeira, PT nel 6-10 September 2020).
MICRO-INCLUSIONS AND LOADS EFFECT ON METAL FATIGUE: A MODIFIED LIFE ESTIMATION MODEL THROUGH EXPERIMENTAL AND ANALYTICAL INVESTIGATION
Raffaella Sesana;Irene Pessolano Filos;
2020
Abstract
Fatigue life calculation of a metal component accounts for different phenomena. External factors, such as load type, as well as internal microstructure, play a major role in determining fatigue failure. The present paper explores the relationship between micro-inclusions in hard steels and fatigue behaviour. Tension- compression and rotating bending tests were performed on two steel alloys with different grades. Micro- inclusions presence and characteristics are quantified by a non- destructive SEM technique. The stress field around micro- inclusions is quantified by Eshelby’s model. A microstructural study is applied to relate failure and microinclusion parameters. This approach leads to the identification of a modified life model and stress intensity factor in the two loading cases.
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https://hdl.handle.net/11583/2837375