SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2128089522> ?p ?o ?g. }

Showing items 1 to 100 of ±128 with 100 items per page.

W2128089522 endingPage "045004" @default.
W2128089522 startingPage "045004" @default.
W2128089522 abstract "The objective of this paper is to develop further a framework for computationally modeling microstructurally small fatigue crack growth in AA 7075-T651 (Bozek et al 2008 Modelling Simul. Mater. Sci. 16 065007). The focus is on the nucleation event, when a crack extends from within a second-phase particle into a surrounding grain, since this has been observed to be an initiating mechanism for fatigue crack growth in this alloy. It is hypothesized that nucleation can be predicted by computing a non-local nucleation metric near the crack front. The hypothesis is tested by employing a combination of experimentation and finite element modeling in which various slip-based and energy-based nucleation metrics are tested for validity, where each metric is derived from a continuum crystal plasticity formulation. To investigate each metric, a non-local procedure is developed for the calculation of nucleation metrics in the neighborhood of a crack front. Initially, an idealized baseline model consisting of a single grain containing a semi-ellipsoidal surface particle is studied to investigate the dependence of each nucleation metric on lattice orientation, number of load cycles and non-local regularization method. This is followed by a comparison of experimental observations and computational results for microstructural models constructed by replicating the observed microstructural geometry near second-phase particles in fatigue specimens. It is found that orientation strongly influences the direction of slip localization and, as a result, influences the nucleation mechanism. Also, the baseline models, replication models and past experimental observation consistently suggest that a set of particular grain orientations is most likely to nucleate fatigue cracks. It is found that a continuum crystal plasticity model and a non-local nucleation metric can be used to predict the nucleation event in AA 7075-T651. However, nucleation metric threshold values that correspond to various nucleation governing mechanisms must be calibrated." @default.
W2128089522 created "2016-06-24" @default.
W2128089522 creator A5013281784 @default.
W2128089522 creator A5022388117 @default.
W2128089522 creator A5029712447 @default.
W2128089522 creator A5064692716 @default.
W2128089522 creator A5071066777 @default.
W2128089522 creator A5075988296 @default.
W2128089522 creator A5090476734 @default.
W2128089522 date "2010-03-11" @default.
W2128089522 modified "2023-10-08" @default.
W2128089522 title "A geometric approach to modeling microstructurally small fatigue crack formation: II. Physically based modeling of microstructure-dependent slip localization and actuation of the crack nucleation mechanism in AA 7075-T651" @default.
W2128089522 cites W1257947508 @default.
W2128089522 cites W1501560942 @default.
W2128089522 cites W1965669894 @default.
W2128089522 cites W1971261721 @default.
W2128089522 cites W1975422954 @default.
W2128089522 cites W1976819458 @default.
W2128089522 cites W1980045854 @default.
W2128089522 cites W1986784780 @default.
W2128089522 cites W1991952419 @default.
W2128089522 cites W1995973028 @default.
W2128089522 cites W1998158943 @default.
W2128089522 cites W2005827075 @default.
W2128089522 cites W2007763027 @default.
W2128089522 cites W2008793430 @default.
W2128089522 cites W2012951570 @default.
W2128089522 cites W2013780567 @default.
W2128089522 cites W2023417262 @default.
W2128089522 cites W2025495981 @default.
W2128089522 cites W2032992589 @default.
W2128089522 cites W2040099098 @default.
W2128089522 cites W2041296184 @default.
W2128089522 cites W2044933282 @default.
W2128089522 cites W2045721763 @default.
W2128089522 cites W2051093054 @default.
W2128089522 cites W2053054171 @default.
W2128089522 cites W2063620422 @default.
W2128089522 cites W2068474611 @default.
W2128089522 cites W2068619804 @default.
W2128089522 cites W2081150099 @default.
W2128089522 cites W2083235597 @default.
W2128089522 cites W2083510981 @default.
W2128089522 cites W2100165860 @default.
W2128089522 cites W2161287079 @default.
W2128089522 cites W4231802220 @default.
W2128089522 cites W4236190332 @default.
W2128089522 cites W4253194302 @default.
W2128089522 doi "https://doi.org/10.1088/0965-0393/18/4/045004" @default.
W2128089522 hasPublicationYear "2010" @default.
W2128089522 type Work @default.
W2128089522 sameAs 2128089522 @default.
W2128089522 citedByCount "87" @default.
W2128089522 countsByYear W21280895222012 @default.
W2128089522 countsByYear W21280895222013 @default.
W2128089522 countsByYear W21280895222014 @default.
W2128089522 countsByYear W21280895222015 @default.
W2128089522 countsByYear W21280895222016 @default.
W2128089522 countsByYear W21280895222017 @default.
W2128089522 countsByYear W21280895222018 @default.
W2128089522 countsByYear W21280895222019 @default.
W2128089522 countsByYear W21280895222020 @default.
W2128089522 countsByYear W21280895222021 @default.
W2128089522 countsByYear W21280895222022 @default.
W2128089522 countsByYear W21280895222023 @default.
W2128089522 crossrefType "journal-article" @default.
W2128089522 hasAuthorship W2128089522A5013281784 @default.
W2128089522 hasAuthorship W2128089522A5022388117 @default.
W2128089522 hasAuthorship W2128089522A5029712447 @default.
W2128089522 hasAuthorship W2128089522A5064692716 @default.
W2128089522 hasAuthorship W2128089522A5071066777 @default.
W2128089522 hasAuthorship W2128089522A5075988296 @default.
W2128089522 hasAuthorship W2128089522A5090476734 @default.
W2128089522 hasConcept C111472728 @default.
W2128089522 hasConcept C121332964 @default.
W2128089522 hasConcept C127413603 @default.
W2128089522 hasConcept C138885662 @default.
W2128089522 hasConcept C158488214 @default.
W2128089522 hasConcept C159985019 @default.
W2128089522 hasConcept C192562407 @default.
W2128089522 hasConcept C195268267 @default.
W2128089522 hasConcept C2985278600 @default.
W2128089522 hasConcept C57879066 @default.
W2128089522 hasConcept C59085676 @default.
W2128089522 hasConcept C61048295 @default.
W2128089522 hasConcept C66938386 @default.
W2128089522 hasConcept C75512024 @default.
W2128089522 hasConcept C87976508 @default.
W2128089522 hasConcept C89611455 @default.
W2128089522 hasConcept C97355855 @default.
W2128089522 hasConceptScore W2128089522C111472728 @default.
W2128089522 hasConceptScore W2128089522C121332964 @default.
W2128089522 hasConceptScore W2128089522C127413603 @default.
W2128089522 hasConceptScore W2128089522C138885662 @default.
W2128089522 hasConceptScore W2128089522C158488214 @default.
W2128089522 hasConceptScore W2128089522C159985019 @default.
W2128089522 hasConceptScore W2128089522C192562407 @default.
W2128089522 hasConceptScore W2128089522C195268267 @default.