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Soboyejo, W. O.
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Publications (6/6 displayed)
- 2020Drug-encapsulated blend of PLGA-PEG microspheres: in vitro and in vivo study of the effects of localized/targeted drug delivery on the treatment of triple-negative breast cancercitations
- 2013Role of oxide thickening in fatigue crack initiation in LIGA nickel MEMS thin filmscitations
- 2008Fatigue and fracture of a bulk nanocrystalline NiFe alloycitations
- 2007Fatigue of LIGA Ni micro-electro-mechanical system thin filmscitations
- 2007Mechanisms of fatigue in LIGA Ni MEMS thin filmscitations
- 2002Microstructure and mechanical properties of a β Nb-Ti based alloycitations
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article
Fatigue and fracture of a bulk nanocrystalline NiFe alloy
Abstract
This article presents the results of an experimental study of fracture and fatigue in a nanostructured (an average grain size of ∼23 nm) bulk Ni-18 wt pct Fe alloy that was produced using a pulsed electrodeposition technique. The fracture behavior of the alloy is investigated using fracture resistance experiments, while the fatigue behavior is studied in fatigue crack growth experiments. The alloy exhibits limited toughening as the crack initiates at a fracture toughness of about 25 MPa√m and propagates with a slight increase to a plateau value of about 30 MPa√m. The limited toughening arises from the slight increase in the crack-tip plastic-deformation zone at the early crack growth and ligament bridging due to the microcrack formation ahead of the tip of the main crack. In contrast with a flat fatigue-crack wake, a wavy crack wake was observed under monotonic loading. This trend is attributed to the following: (a) nanovoid coalescence at grain boundaries, (b) microcrack formation by joining nanovoids, and (c) the linking of microcracks with the main crack through the fracture of inclined bridging ligaments. The fractured surface is shown to contain ductile dimple structures with average diameters of ∼100 nm. Focused-ion-beam (FIB) methods are also used to study fatigue-crack growth. These results show that fatigue crack growth occurs by the coalescence of nanovoids that form ahead of the crack tip. The observed mechanisms of fatigue crack growth are shown to be consistent with the results of prior atomistic simulations. © The Minerals, Metals & Materials Society and ASM International 2008.