Environmental Fatigue-Crack Surface Crystallography for Al-Zn-Cu-Mg-Mn/Zr

Abstract: The scanning electron microscope (SEM)-based electron backscattered diffraction (EBSD)/ stereology technique quantitatively establishes distributions of the crystallographic characteristics of environmental-fatigue crack features for slightly overaged Al-Zn-Cu-Mg-X (X = Zr or Mn) alloys stressed in the low-growth-rate regime. Results for these homogeneous slip alloys conform to a substantial companion study of planar slip-prone Al-Cu-Mg/Li. Transgranular-crack characteristics are similar for the Mn and Zr vari… Show more

“…9, crack nucleation occurred toward the center of a grain on a near-{0 0 1} crystallographic plane with the crack-surface normal inclined 28°from the global loading direction. The observed crack nucleation on a near-{0 0 1} plane rather than a {1 1 1}-slip plane seems to be consistent with observations of environmental hydrogenassisted fatigue cracking [9,[15][16][17]57], though the precise mechanism cannot be substantiated from the current study.…”

“…For many aluminum alloys under certain conditions, crack nucleation and early propagation have been associated with a {1 1 1} slip-based mechanism identified as Stage I cracking [52][53][54][55][56]. Alternatively, a number of studies have revealed non-slip-based mechanisms in aluminum alloys, often with crack paths near parallel to {0 0 1}, {1 0 1}, or high-index planes [9,[15][16][17]57]. These non-slipbased observations have been attributed to environmental hydrogen-assisted cracking.…”

“…For example, rather than relying on 2-D trace analyses to determine possible crystallographic planes on which MSFCs evolve, some have used fractography with diffraction-based methods to determine quantitatively the precise crystallography of individual facets on fatigue-crack surfaces [11][12][13][14][15][16][17][18].…”

“…plastic deformation). Indirect methods, on the other hand, rely on grainorientation information collected on a prepared surface adjacent to the faceted fatigue-crack surface [11,[13][14][15][16][17][18]. For the indirect methods, quantitative facet crystallography involves first determining the facet normal,n, in the spatial reference frame using scanning electron microscopy (SEM)-based stereology [20].…”

Three-dimensional characterization of microstructurally small fatigue-crack evolution using quantitative fractography combined with post-mortem X-ray tomography and high-energy X-ray diffraction microscopy

“…9, crack nucleation occurred toward the center of a grain on a near-{0 0 1} crystallographic plane with the crack-surface normal inclined 28°from the global loading direction. The observed crack nucleation on a near-{0 0 1} plane rather than a {1 1 1}-slip plane seems to be consistent with observations of environmental hydrogenassisted fatigue cracking [9,[15][16][17]57], though the precise mechanism cannot be substantiated from the current study.…”

“…For many aluminum alloys under certain conditions, crack nucleation and early propagation have been associated with a {1 1 1} slip-based mechanism identified as Stage I cracking [52][53][54][55][56]. Alternatively, a number of studies have revealed non-slip-based mechanisms in aluminum alloys, often with crack paths near parallel to {0 0 1}, {1 0 1}, or high-index planes [9,[15][16][17]57]. These non-slipbased observations have been attributed to environmental hydrogen-assisted cracking.…”

“…For example, rather than relying on 2-D trace analyses to determine possible crystallographic planes on which MSFCs evolve, some have used fractography with diffraction-based methods to determine quantitatively the precise crystallography of individual facets on fatigue-crack surfaces [11][12][13][14][15][16][17][18].…”

“…plastic deformation). Indirect methods, on the other hand, rely on grainorientation information collected on a prepared surface adjacent to the faceted fatigue-crack surface [11,[13][14][15][16][17][18]. For the indirect methods, quantitative facet crystallography involves first determining the facet normal,n, in the spatial reference frame using scanning electron microscopy (SEM)-based stereology [20].…”

Three-dimensional characterization of microstructurally small fatigue-crack evolution using quantitative fractography combined with post-mortem X-ray tomography and high-energy X-ray diffraction microscopy

“…SEM fractography of UHV K-shed fracture surfaces ( Figure 8) for both T-L and L-T oriented specimens demonstrate faceted features (Figure 8a and 8c, respectively) at low ΔK. Prior work on this lot of material [61] and other precipitation hardened Al alloys [62,63] cracked in inert environments used quantitative crack-surface stereology coupled with EBSD to establish that such facets are characteristic of slip band cracking (SBC) parallel to {111} slip planes. Consistent with prior work, this SBC morphology is not observed at higher ΔK ( Figure 8b and 8d), likely due to elimination of discretely localized planar slip banding through activation of multiple slip systems as the stress intensity range and crack tip plasticity increase.…”

Effect of water vapor pressure on fatigue crack growth in Al–Zn–Cu–Mg over wide-range stress intensity factor loading

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