Elucidating the Mechanism of Fatigue Crack Acceleration Following the Occurrence of an Underload

Salvati, Enrico; Sui, Tan; Zhang, Hongjia; Lunt, Alexander J.G.; Fong, Kai Soon; Song, Xu; Korsunsky, Alexander M.

doi:10.1002/adem.201600069

Cited by 25 publications

(18 citation statements)

References 45 publications

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“…These patterns show the typical Debye-Scherrer rings, which are associated to certain crystalline plane reflections; the relevant planes were identified and labelled in Figure . Amongst the number of information that can be extracted from the analysis of these patters, we focus our effort in the analysis of strains. It is well known that the radial position of rings is associated with the interplanar distance and therefore, under loading condition, variation of this distance can be correlated to the strain occurring at the crystalline scale [38][39][40][41][42][43][44]. For a given Miller index hkl, the conversion between the interplanar distance (lattice parameter ℎ ) and the estimated lattice strain ℎ is given by:…”

Section: In-situ Waxs Experimentsmentioning

confidence: 99%

Multiscale analysis of bamboo deformation mechanisms following NaOH treatment using X-ray and correlative microscopy

et al. 2018

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Alkaline solutions are often employed for the treatment of bamboo in order to alter its natural elastic behaviour. In this work we study the effect of alkaline solutions on the elastic properties of bamboo. Using state of the art experimental techniques allowed shedding light on the deformation mechanisms occurring in the bamboo main constituents, i.e. fibres and matrix (parenchyma cells). Enhancement of fibre stiffness was experienced when up to 20% NaOH solution was employed, while for higher concentration a decay was observed. This effect was imputed to the modification of adhesion between fibrils induced by disruption of ligand elements (e.g. lignin). Modification of the matrix toughness was also experienced, that indicated an improved resistance to cracking when the concentration of NaOH is 25%, while reduction of toughness was revealed for lower concentrations.

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Section: In-situ Waxs Experimentsmentioning

confidence: 99%

Multiscale analysis of bamboo deformation mechanisms following NaOH treatment using X-ray and correlative microscopy

et al. 2018

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“…the evaluation of interplanar atomic lattice spacing by diffraction, or changes in molecular bond stiffness by spectroscopy. The wide range of experimental methods includes high resolution optical techniques, Raman spectroscopy analysis of diamond-like coatings [19,20] and a multitude of X-ray diffraction techniques for the analysis of intergranular stresses [21][22][23][24][25][26][27]. High resolution Electron Back Scatter Diffraction (HR-EBSD) has also made significant advances, and provides a powerful means of determining the lattice strains at resolutions ranging from sub-micron scale in backscattered geometry to a few nm in transmission.…”

Section: Accepted Manuscriptmentioning

confidence: 99%

An analysis of macro- and micro-scale residual stresses of Type I, II and III using FIB-DIC micro-ring-core milling and crystal plasticity FE modelling

Salvati

Korsunsky

2017

International Journal of Plasticity

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“…Salvati et al [17] studied the fatigue crack acceleration due to a single compressive underload through residual stress mapping and crack closure analysis. It is found the main contributions to crack acceleration are the crack tip blunting, crack closure, and the crack tip residual stress variation.…”

Section: Methodsmentioning

confidence: 99%

Vibration Fatigue Damage Accumulation of Ti–6Al–4V under Constant and Sequenced Variable Loading Conditions

Lin

Yang

et al. 2018

Metals

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Abstract:This study aims to investigate the effect of loading factors on damage accumulation under variable amplitude vibration (VAV). Vibration fatigue experiments are conducted under both constant amplitude vibration (CAV) and VAV loading cases. The effects of loading sequence, loading amplitude, stress difference, and cyclic ratio on damage accumulation are analyzed. It is found the damage accumulation rate is strongly affected by the loading sequence: the fatigue lives can be ranked in descending order as the one-way low-high loading, the constant loading, and the one-way high-low loading. The effect of stress difference on damage accumulation is not significant, while the damage accumulation varies a lot according to the cyclic ratio of the two-level loading blocks and the fatigue life could be extended by increasing the lower loading cycles. Comparing with linear and double linear damage rules, models based on nonlinear damage rules have apparent advantages in predicting accuracy in VAV conditions, in which the nonlinear continuous damage model has the best compromise between availability and precision.

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Elucidating the Mechanism of Fatigue Crack Acceleration Following the Occurrence of an Underload

Cited by 25 publications

References 45 publications

Multiscale analysis of bamboo deformation mechanisms following NaOH treatment using X-ray and correlative microscopy

Multiscale analysis of bamboo deformation mechanisms following NaOH treatment using X-ray and correlative microscopy

An analysis of macro- and micro-scale residual stresses of Type I, II and III using FIB-DIC micro-ring-core milling and crystal plasticity FE modelling

Vibration Fatigue Damage Accumulation of Ti–6Al–4V under Constant and Sequenced Variable Loading Conditions

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