693.932 PEOPLE
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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Mehmanparast, Ali
University of Strathclyde
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (79/79 displayed)
- 2024Assessment of fatigue crack growth resistance of newly developed LTT alloy composition for the repair of high strength steel structurescitations
- 2023Fatigue life assessment of wire arc additively manufactured ER100S-1 steel partscitations
- 2023Fatigue life assessment of offshore wind support structures in the presence of corrosion pitscitations
- 2023Development of a new approach for corrosion-fatigue analysis of offshore steel structurescitations
- 2023Uniaxial and multiaxial fatigue behaviour of wire arc additively manufactured ER70S-6 low carbon steel componentscitations
- 2023The influence of laser shock peening on corrosion-fatigue behaviour of wire arc additively manufactured componentscitations
- 2023The effect of surface treatment and orientation on fatigue crack growth rate and residual stress distribution of wire arc additively manufactured low carbon steel componentscitations
- 2022Experimental investigation of the fatigue crack growth behavior in wire arc additively manufactured ER100S-1 steel specimenscitations
- 2022Assessment of mechanical and fatigue crack growth properties of wire + arc additively manufactured mild steel componentscitations
- 2022Corrosion-fatigue crack growth behaviour of wire arc additively manufactured ER70S-6 steel parts in marine environmentscitations
- 2022Corrosion effects on fracture toughness properties of wire arc additively manufactured low carbon steel specimenscitations
- 2022Assessment of mechanical and fatigue crack growth properties of wire+arc additively manufactured mild steel componentscitations
- 2022A review of LTT welding alloys for structural steels: design, application and resultscitations
- 2021Experimental investigation of the fatigue crack growth behavior in wire arc additively manufactured ER100S-1 steel specimenscitations
- 2021The role of microstructure in the corrosion-fatigue crack growth behaviour in structural steelscitations
- 2021On the performance of monopile weldments under service loading conditions and fatigue damage predictioncitations
- 2021On the performance of monopile weldments under service loading conditions and fatigue damage predictioncitations
- 2021Compact crack arrest testing and analysis of EH47 shipbuilding steelcitations
- 2021Determination of long-term creep properties for 316H steel using short-term tests on pre-strained materialcitations
- 2021Experimental investigation of lattice deformation behavior in S355 steel weldments using neutron diffraction techniquecitations
- 2021Prediction of reheat cracking behavior in a service exposed 316H steam headercitations
- 2021Material pre-straining effects on fatigue behaviour of S355 structural steelcitations
- 2021Material pre-straining effects on fracture toughness variation in offshore wind turbine foundationscitations
- 2021Fatigue crack growth behaviour of wire and arc additively manufactured ER70S-6 low carbon steel componentscitations
- 2021Cavitation shotless peening effects on fatigue crack growth behaviour under bending loads
- 2020Experimental study of the relationship between fracture initiation toughness and brittle crack arrest toughness predicted from small-scale testingcitations
- 2020The influence of microstructure on the fatigue crack growth rate in marine steels in the Paris Regioncitations
- 2020Analysis of fracture toughness properties of wire + arc additive manufactured high strength low alloy structural steel componentscitations
- 2020Structural reliability assessment of offshore wind turbine support structures subjected to pitting corrosion‐fatigue: A damage tolerance modelling approachcitations
- 2020Near-weld creep crack growth behaviour in type 316H steel ex-service componentscitations
- 2020Waveform and frequency effects on corrosion-fatigue crack growth behaviour in modern marine steelscitations
- 2020Investigation of mechanical and fracture properties of wire and arc additively manufactured low carbon steel componentscitations
- 2020Experimental and numerical investigation of the weld geometry effects on Type IV cracking behaviour in P91 steelcitations
- 2020Prediction of reheat cracking behavior in a service exposed 316H steam headercitations
- 2020Structural integrity assessment of floating offshore wind turbine support structurescitations
- 2019Analysis of fracture toughness properties of wire + arc additive manufactured high strength low alloy structural steel componentscitations
- 2019Critical assessment of the fatigue crack growth rate sensitivity to material microstructure in ferrite-pearlite steels in air and marine environmentcitations
- 2019Fatigue damage analysis of offshore wind turbine monopile weldmentscitations
- 2019Shot peening effects on residual stresses redistribution of offshore wind monopile multi-pass weldmentscitations
- 2019Correlation between steel microstructural characteristics and the initiation and arrest toughness determined from small-scale mechanical testingcitations
- 2018Probabilistic assessment of creep-fatigue crack propagation in austenitic stainless steel cracked platescitations
- 2018Materials selection for XL wind turbine support structurescitations
- 2018Residual stress measurements in offshore wind monopile weldments using neutron diffraction technique and contour methodcitations
- 2018Fracture mechanics assessment of large diameter wind turbine bearingscitations
- 2018The influence of partial surface shot peening on fatigue crack growth behaviour of a high-strength ferritic steelcitations
- 2018Experimental investigation of mechanical and fracture properties of offshore wind monopile weldmentscitations
- 2018A numerical analysis of the effects of manufacturing processes on material pre-strain in offshore wind monopilescitations
- 2018Materials selection for XL wind turbine support structures: A corrosion-fatigue perspectivecitations
- 2017Fatigue crack growth rates for offshore wind monopile weldments in air and seawatercitations
- 2017Fatigue crack growth rates for offshore wind monopile weldments in air and seawater : SLIC inter-laboratory test resultscitations
- 2017The influence of partial surface shot peening on fatigue crack growth behaviour of a high-strength ferritic steelcitations
- 2017Corrosion fatigue crack growth mechanisms in offshore monopile steel weldmentscitations
- 2016Creep-fatigue crack growth testing and analysis of pre-strained 316H stainless steelcitations
- 2016Fatigue crack growth rates for offshore wind monopile weldments in air and seawater: SLIC inter-laboratory test resultscitations
- 2016Effects of plastic pre-straining level on the creep deformation, crack initiation and growth behaviour of 316H stainless steelcitations
- 2016Fatigue crack growth under remote and local compression–a state-of-the-art reviewcitations
- 2016Prediction of creep crack initiation behaviour in 316H stainless steel using stress dependent creep ductilitycitations
- 2014Prediction of creep crack growth behaviour in 316H stainless steel for a range of specimen geometriescitations
- 2014Creep crack growth predictions in 316H steel over a wide range of stresses and temperaturescitations
- 2014Creep crack growth prediction of very long term P91 steel using extrapolated short-term uniaxial creep datacitations
- 2014Evaluation of fracture mechanics parameters for a range of weldment geometries with different mismatch ratioscitations
- 2014The effect of discontinuous crack in creep crack growth tests
- 2014Specimen geometry and size effects on the creep crack growth behaviour of P91 weldmentscitations
- 2014Creep crack growth rate predictions in 316H steel using stress dependent creep ductilitycitations
- 2014Quantification and prediction of residual stresses in creep crack growth specimenscitations
- 2014The influence of inelastic damage on tensile deformation and creep crack growth behaviour of type 316H stainless steelcitations
- 2014Plastic pre-compression and creep damage effects on the fracture toughness behaviour of Type 316H stainless steelcitations
- 2013Material pre-conditioning effects on the creep behaviour of 316H stainless steelcitations
- 2013Evaluation of fracture mechanics parameters for bimaterial compact tension specimenscitations
- 2013Numerical prediction of the long term creep crack growth behaviour in type 316H stainless steelcitations
- 2013TDFAD analysis of creep crack initiation in pre-strained and as-received Type 316H stainless steel
- 2013Influence of prior deformation on creep crack growth behaviour of 316H austenitic steels
- 2013Creep Crack Growth Modelling in 316H Stainless Steelcitations
- 2013Specimen orientation and constraint effects on the creep crack growth behaviour of 316H stainless steelcitations
- 2013The influence of pre-compression on the creep deformation and failure behaviour of Type 316H stainless steelcitations
- 2012An investigation of irregular crack path effects on fracture mechanics parameters using a grain microstructure meshing techniquecitations
- 2011Evaluation of the testing and analysis methods in ASTM E2760-10 creep-fatigue crack growth testing standard for a range of steelscitations
- 2010The influence of creep-fatigue interaction on high temperature crack growth in 316 steel weldmentscitations
- 2010Compressive pre-strain effects on the creep and crack growth behaviour of 316H stainless steelcitations
Places of action
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article
On the performance of monopile weldments under service loading conditions and fatigue damage prediction
Abstract
<p>Thick weldments used in offshore structures frequently act as fatigue crack initiation sites due to stress concentration at weld toe as well as weld residual stress fields. This paper investigates the cyclic deformation behavior of S355 G10+M steel, which is predominantly used in offshore wind applications. Owing to the vast size difference of monopile structure and weld cross-section, a global–local finite element (FE) method was used, and the weld geometry was adopted from circumferential weld joints used in offshore wind turbine monopile foundations. Realistic service loads collected using supervisory control and data acquisition (SCADA) and wave buoy techniques were used in the FE model. A nonlinear isotropic–kinematic hardening model was calibrated using the strain controlled cyclic deformation results obtained from base metal (BM) as well as cross-weld specimen tests. The tests revealed that the S355 G10+M BM and weld metal (WM) undergo continuous cyclic stress relaxation. Fatigue damage over a period of 20 years of operation was predicted using the local stress at the root of the weldments as the life limiting criterion. This study helps in quantifying the level of conservatism in the current monopile design approaches and has implications towards making wind energy more economic.</p>