In-situ observations of low-cycle fatigue damage in cast AM60B magnesium in an environmental scanning electron microscope

Gall, Ken; Biallas, Gerhard; Maier, Hans Jürgen; Gullett, Phil; Horstemeyer, Mark F.

doi:10.1007/s11661-004-0133-5

Cited by 37 publications

(11 citation statements)

References 21 publications

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“…Furthermore, the wavy appearance of slip lines is characteristic of the cross-slip of o a4 -type dislocations into non-basal slip planes [55]. These findings are in agreement with macroscopic flow curves presented earlier, as well as crack initiation mechanisms reported for various magnesium alloys in the literature [56][57][58][59][60].…”

Section: Fracture Surface Characterisationsupporting

confidence: 91%

Role of loading direction on cyclic behaviour characteristics of AM30 extrusion and its fatigue damage modelling

Roostaei

Jahed

2016

Materials Science and Engineering: A

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a b s t r a c tAnisotropic fatigue and cyclic behaviour of AM30 Mg alloy extrusion is investigated by performing fullyreversed strain-controlled tension-compression cyclic tests at strain amplitudes between 0.3% and 2.3%, along extrusion (ED) and transverse (TD) directions. The shapes of half-life hysteresis loops suggest the predominance of slip and twinning/de-twinning mechanisms below and above the strain amplitude of 0.5%, respectively. The twinning/de-twinning occurrence is found to be more extensive during straining along ED, which results in higher asymmetry of hysteresis loops, and thereby, higher induced mean stress. This adversely affects the fatigue resistance and yields to less number of cycles before failure in ED. Optical microscopy and texture analysis are employed to validate the findings. In addition, fracture surfaces are studied by scanning electron microscopy to identify the sources of fatigue crack initiation. Persistent slip bands (PSBs) and twin lamellae interfaces are evidenced as crack initiation sites at low and high strain amplitudes, respectively. Cracks emanated from debonded inclusion interface are also observed. Lastly, estimated fatigue life by Smith-Watson-Topper (SWT) and Jahed-Varvani (JV) fatigue models are compared with experimental life obtained through this study as well as the ones reported in the literature. The JV energy model is proven to yield better life predictions.

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Section: Fracture Surface Characterisationsupporting

confidence: 91%

Role of loading direction on cyclic behaviour characteristics of AM30 extrusion and its fatigue damage modelling

Roostaei

Jahed

2016

Materials Science and Engineering: A

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“…Multiple investigators [1][2][3][4][5] have demonstrated via computational methods that the underlying microstructure attributes (i.e., grain size and orientation distributions, surface proximity of pre-existing defects and twinning) can be largely responsible for the variability in fatigue life in several engineering alloys. Cyclic loading at low to medium applied strain amplitudes below the macroscopic yield point induces cyclic plastic deformation patterns that are highly inhomogeneous through the microstructure and results in significant variability and uncertainty in fatigue life estimation.…”

Section: Introductionmentioning

confidence: 99%

Microstructure and mesh sensitivities of mesoscale surrogate driving force measures for transgranular fatigue cracks in polycrystals

Castelluccio

McDowell

2015

Materials Science and Engineering: A

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a b s t r a c tThe number of cycles required to form and grow microstructurally small fatigue cracks in metals exhibits substantial variability, particularly for low applied strain amplitudes. This variability is commonly attributed to the heterogeneity of cyclic plastic deformation within the microstructure, and presents a challenge to minimum life design of fatigue resistant components. This paper analyzes sources of variability that contribute to the driving force of transgranular fatigue cracks within nucleant grains. We employ crystal plasticity finite element simulations that explicitly render the polycrystalline microstructure and Fatigue Indicator Parameters (FIPs) averaged over different volume sizes and shapes relative to the anticipated fatigue damage process zone. Volume averaging is necessary to both achieve description of a finite fatigue damage process zone and to regularize mesh dependence in simulations. Results from constant amplitude remote applied straining are characterized in terms of the extreme value distributions of volume averaged FIPs. Grain averaged FIP values effectively mitigate mesh sensitivity, but they smear out variability within grains. Volume averaging over bands that encompass critical transgranular slip planes appear to present the most attractive approach to mitigate mesh sensitivity while preserving variability within grains.Published by Elsevier B.V.

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“…The combination of intergranular and transgranular [7,8] crack path in Mg alloys is discussed by various authors. The role of microporosity as the crack initiation source is found in fatigue analysis of Mg alloys [9][10][11][12][13]. Magnesium and its alloys exhibits moderate ductility due to the lack of independent slip systems [14] also influence this materials' fracture behaviour.…”

Section: Introductionmentioning

confidence: 99%

Microscopic failure modes of hpdc AZ91HP magnesium alloy under monotonic loading

Prakash

Regener

Vorster

2008

Materials Science and Engineering: A

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In-situ observations of low-cycle fatigue damage in cast AM60B magnesium in an environmental scanning electron microscope

Cited by 37 publications

References 21 publications

Role of loading direction on cyclic behaviour characteristics of AM30 extrusion and its fatigue damage modelling

Role of loading direction on cyclic behaviour characteristics of AM30 extrusion and its fatigue damage modelling

Microstructure and mesh sensitivities of mesoscale surrogate driving force measures for transgranular fatigue cracks in polycrystals

Microscopic failure modes of hpdc AZ91HP magnesium alloy under monotonic loading

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