Bridging cell multiscale modeling of fatigue crack growth in fcc crystals

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Bridging cell multiscale modeling of fatigue crack growth in fcc crystals is …
instance of (P31):
scholarly articleQ13442814

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P356DOI10.1002/NME.4968
P894zbMATH Open document ID1352.74283

P2093author name stringKamran Behdinan
Vincent Iacobellis
P2860cites workAtomistic mechanisms of fatigue in nanocrystalline metalsQ51460474
Coupled atomistic and discrete dislocation plasticity.Q53934757
Temperature effects on fatigue thresholds and structure sensitive crack growth in a nickel-base superalloyQ57389501
Matching conditions in the quasicontinuum method: Removal of the error introduced at the interface between the coarse-grained and fully atomistic regionQ57640861
P433issue13
P921main subjectapplied mathematicsQ33521
numerical analysisQ11216
P6104maintained by WikiProjectWikiProject MathematicsQ8487137
P304page(s)1200-1216
P577publication date2015-07-01
P1433published inInternational Journal for Numerical Methods in EngineeringQ15765526
P1476titleBridging cell multiscale modeling of fatigue crack growth in fcc crystals
P478volume104

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