Mechanical Behavior Laboratory University of Nevada, Reno

Paper Abstract

[J72] Wang, F., Dong, J., Ding, W., and Jiang, Y., 2013, "Cyclic deformation and fatigue of extruded Mg-Gd-Y magnesium alloy" Materials Science and Engineering: A, Vol. A561, pp.403-410. doi: 10.1016/j.msea.2012.10.048

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Abstract72

[J72] Wang, F., Dong, J., Ding, W., and Jiang, Y., 2013, "Cyclic deformation and fatigue of extruded Mg-Gd-Y magnesium alloy" Materials Science and Engineering: A, Vol. A561, pp.403-410

Paper Figures

Fig. 2

Fig. 2. Monotonic tension and compression of extruded GW83 and AZ31B alloys: (a) absolute stress versus absolute strain (Download data) and (b) absolute stress versus absolute plastic strain (results of AZ31B are from Ref. [42]) (Download data).

Fig. 3

Fig. 3. Stress-strain hysteresis loops of extruded GW83 alloy: (a) Δε/2=4.0% (Download data); (b) Δε/2=0.77% (Download data); (c) Δε/2 =0.30% (Download data).

Fig. 4

Fig. 4. Comparison of the upper branch with the lower branch of the stress-strain hysteresis loop at the half-life cycle at a strain amplitude of 4.0% for extruded GW83 alloys (Download data).

Fig. 5

Fig. 5. Variation of stress amplitude with number of loading cycles under strain amplitudes from 0.275% to 5.0% for extruded GW83 alloys (Download data).

Fig. 6

Fig. 6. Stabilized stress-strain hysteresis loops at half-life cycles for extruded GW83 alloys (Download data).

Fig. 7

Fig. 7. Cyclic stress-plastic strain curves for extruded GW83 and AZ31B alloys (results of AZ31B are from Ref. [42]) (Download data).

Fig. 8

Fig. 8. Fatigue life curves for extruded GW83 and AZ31B alloys: (a) strain-life fatigue curve (Download data) and (b) stress-life fatigue curve (results of AZ31B (Download data) are taken from Ref. [42]).

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