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Time-incremental creep–fatigue damage rule for single crystal Ni-base

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Time-incremental creep–fatigue damage rule for single crystal Ni-base

Open access

Samenvatting

In the present paper a damage model for single crystal Ni-base superalloys is proposed that integrates time-dependent and cyclic damage into a generally applicable time-incremental damage rule. A criterion based on the Orowan stress is introduced to detect slip reversal on the microscopic level and the
cyclic damage accumulation is quantified using the dislocation loop immobilization mechanism. Further, the interaction between cyclic and time-dependent damage accumulation is incorporated in the model. Implementation in a multi-scale constitutive framework for Ni-base superalloys enables simulations for
a wide range of loading conditions, showing adequate agreement with experimental results.

Trefwoorden
OrganisatieMinisterie van Defensie - NLDA
AfdelingFaculteit Militaire Wetenschappen
Gepubliceerd inMaterials Science and Engineering: A Elsevier, Lausanne, Vol. 508, Uitgave: 1-2, Pagina's: 200-208
Jaar2009
TypeArtikel
DOI10.1016/j.msea.2008.12.047
TaalEngels

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