Fatigue crack initiation and growth on a steel in the very high cycle regime with sea water corrosion

Palin‐Luc, Thierry; Pérez-Mora, Ruben; Bathìas, Claude; Dominguez, Gonzalo; Paris, Paul C.; Arana, J.L.

doi:10.1016/j.engfracmech.2010.02.015

Cited by 101 publications

(66 citation statements)

References 6 publications

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“…However, the erosion behaviour in extreme marine conditions is not well understood or established, and this includes the ability of the leading edges of tidal turbine blades to withstand the exposure conditions, where the water density is approaching three orders (784) of magnitude greater than such materials exposed to air, i.e. as in the case of composite material used for wind turbine applications [4,5].…”

Section: Introductionmentioning

confidence: 99%

Impact Angle Effects on Erosion Maps of GFRP: Applications to Tidal Turbines

2016

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Tribology in marine renewable technologies has become of increasing interest due to the implications for developing improved materials for tidal and wave energy conversion devices. This on-going research mainly focuses on tidal devices; the materials of interest are primarily polymer-based composite materials that are used to provide structural integrity while reducing weight. These are specifically applied to turbine blades to withstand the high impact loadings in seawater conditions. At present, current materials in test trials have demonstrated some limitations in service. In this paper, some advanced experimental research has been carried out to investigate the tribological mechanisms of potential candidate composite materials to be used in tidal turbines by firstly considering the effects of various erosion parameters on the degradation modes, with and without particles in still and seawater conditions. The erosion mechanisms of composite materials used in tidal turbine blades have been evaluated using Scanning Electron Microscopy techniques to analyse the surface morphologies following testing in water representative of the constituents of coastal seawater. Generic erosion maps and the mechanistic maps have been constructed as a key to identify regions of minimum erosion for the operating conditions and to identify the significant effect of the seawater environment on the degradation of the composite. This research outcome will further help us to deeply understand and identify the erosion rates at different impact velocities and angles.

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Section: Introductionmentioning

confidence: 99%

Impact Angle Effects on Erosion Maps of GFRP: Applications to Tidal Turbines

2016

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“…The crack spreads further into the material without the influence of surfactants. Besides, on one of the specimens there were two centers of crack initiation at one site (Fig.4a), which is usually typical of fatigue failure by corrosion [11], and this is also indicated by the case when the crack is formed away from the region of maximum stresses. Thus, we can say that the effect of liquid metal embrittlement occurs only at the stage of fatigue crack initiation, and its propagation inside goes by the classical Paris law.…”

Section: Results Of Fatigue Testsmentioning

confidence: 99%

The liquid metal embrittlement effect in armko-iron during high and gigacycle fatigue loading

Bannikov¹,

Naimark²

2016

AIP Conference Proceedings

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“…In the work of T. Palin-Luc et al [11] small-scale specimens are tested for crack initiation and crack growth. The VHCF (Very High Cycle Fatigue) tests are conducted on an ultrasonic fatigue testing machine.…”

Section: Descriptionmentioning

confidence: 99%

Testing methodologies for corrosion fatigue

Delmotte

Micone

Waele

2015

SCAD

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Offshore constructions are subjected to cyclic loading conditions. This situation is combined with the corrosive nature of the surrounding environment. It is of actual concern whether the combined effect is more damaging or not than the superposition of each effect independently. This literature review first introduces the reader to corrosion fatigue. Thereafter a critical comparison of some typical lab-scale fatigue corrosion test setups is given. Special emphasis is devoted to the instrumentation of the setup. This is followed by a design criteria summary which will be used to design a new corrosion fatigue test set-up for evaluating the fatigue properties of steel components in sea water environment.

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Fatigue crack initiation and growth on a steel in the very high cycle regime with sea water corrosion

Cited by 101 publications

References 6 publications

Impact Angle Effects on Erosion Maps of GFRP: Applications to Tidal Turbines

Impact Angle Effects on Erosion Maps of GFRP: Applications to Tidal Turbines

The liquid metal embrittlement effect in armko-iron during high and gigacycle fatigue loading

Testing methodologies for corrosion fatigue

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