Data di Pubblicazione:
2013
Abstract:
A failure assessment diagram for components subjected to rolling contact with hardness varying along the depth is presented.
The approach takes into account the influence of inherent defects on subsurface fatigue: considering a 2D plane strain model, crack propagation from inherent defects was assessed in terms of applied stress intensity factor; defect-free fatigue was assessed in terms of the Dang Van stress.
By analysing different combinations of loading condition, defect dimension and hardness profile, it was possible to obtain a general relationship for subsurface rolling contact fatigue prediction.
A good agreement was found between predicted contact pressure limit and some published experimental results.
The approach takes into account the influence of inherent defects on subsurface fatigue: considering a 2D plane strain model, crack propagation from inherent defects was assessed in terms of applied stress intensity factor; defect-free fatigue was assessed in terms of the Dang Van stress.
By analysing different combinations of loading condition, defect dimension and hardness profile, it was possible to obtain a general relationship for subsurface rolling contact fatigue prediction.
A good agreement was found between predicted contact pressure limit and some published experimental results.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Rolling contact fatigue; Surface hardening; Failure assessment; Multiaxial fatigue; Subsurface cracks
Elenco autori:
Donzella, Giorgio; Mazzu', Angelo; Petrogalli, Candida
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