2008
DOI: 10.1016/j.msea.2008.04.050
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Grain orientation effects on the growth of short fatigue cracks in austenitic stainless steel

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Cited by 39 publications
(20 citation statements)
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“…Studies of fatigue of polycrystalline alloys at grain level indicated that crack nucleation and subsequent transgranular growth tend to follow the slip planes due to the shear deformation associated with the slip systems [e.g., 27,30,35,53]. Along the same line, here it was proposed that crack growth in the grain interior will follow the direction of slip trace with the maximum accumulated slip, which can be computed from the crack-tip deformation analyses.…”
Section: Prediction Of Crack Growth Pathmentioning
confidence: 88%
See 1 more Smart Citation
“…Studies of fatigue of polycrystalline alloys at grain level indicated that crack nucleation and subsequent transgranular growth tend to follow the slip planes due to the shear deformation associated with the slip systems [e.g., 27,30,35,53]. Along the same line, here it was proposed that crack growth in the grain interior will follow the direction of slip trace with the maximum accumulated slip, which can be computed from the crack-tip deformation analyses.…”
Section: Prediction Of Crack Growth Pathmentioning
confidence: 88%
“…However, experimental evidence regarding the connection between crack growth path and slip planes (e.g., {111}, {100}, {110}) in f.c.c. materials has been well documented [27,53,56,57]. In this work, crack growth trajectories were explored based on the consideration of the maximum amount of accumulated shear deformation on the available slip planes.…”
Section: Crack-tip Deformationmentioning
confidence: 99%
“…The effect of elastic anisotropy was studied in much more detail by Gopalan & Margolin [64], Neumann & Tönnessen [72], Heinz & Neumann [73] and more recently by Lewis et al [74] in a super-austenitic stainless steel (Fe-24Ni-20Cr-6.3Mo-0.22N) and by Miao et al [75,76]) in a Ni base superalloy. This anisotropy effect might explain the effect of texture on fatigue crack initiation in stainless steels as observed by Blochwitz et al [77][78][79].…”
Section: Fatigue Cracks and Grain Boundaries (A) Introductory Commentsmentioning
confidence: 69%
“…Figure 4(a) shows the preferential orientations of the overall scan in terms of MRD (multiplies of random density), which provides a measure of the preferred crystallographic orientation of the material [43]. It can be seen from figure 4(a) that the initial texture of the scan has an intensity of 1.21 (a microstructure with no texture would have MRD = 1).…”
Section: Materials and Experimental Proceduresmentioning
confidence: 99%