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Zhang, Wen
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Publications (6/6 displayed)
- 2023Emerging two-dimensional (2D) MXene-based nanostructured materials:Synthesis strategies, properties, and applications as efficient pseudo-supercapacitorscitations
- 2020The effect of anisotropic microstructure on the crack growth and fatigue overload behaviour of ultrafine-grained nickelcitations
- 2020Role of Surface Chemistry in the Superhydrophobicity of the Springtail Orchesella cincta (Insecta:Collembola)citations
- 2020The effect of grain size on the fatigue overload behaviour of nickelcitations
- 2017Monitoring the on-surface synthesis of graphene nanoribbons by mass spectrometrycitations
- 2016Synthesis of Graphene Nanoribbons by Ambient-Pressure Chemical Vapor Deposition and Device Integrationcitations
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article
The effect of grain size on the fatigue overload behaviour of nickel
Abstract
The fatigue overload behaviours of coarse grain (~30 μm), ultrafine grain (360 nm) and nanocrystalline (~30 nm) Ni are compared under constant amplitude loading at R = 0.1 after a 100% overload. Synchrotron X-ray diffraction is applied to map the elastic crack-tip strain fields at the mid-thickness of a compact tension specimen of nanocrystalline Ni at various stages through the loading cycles, from which the variation in stress before, during and after overload is estimated. Digital image correlation is used to measure the crack length and the displacement fields at the specimen surfaces for both grain sizes, from which the fatigue crack growth (FCG) rate, crack opening displacement and stress intensity factor range are determined. The FCG for coarse grain Ni is most significantly retarded whereas the nanocrystalline Ni is least affected by the overload due to an increased yield stress and a more planar crack surface morphology. As a result, FCG retardation by plasticity, surface roughness and residual stress-induced crack closure are reduced.