Temperature-dependent damage of magnesium alloy with ratchetting–fatigue interaction effects: Experiments and mesomechanical theory
Fatigue failure is a significant concern for magnesium (Mg) alloy components. However,
fatigue damage mechanisms of Mg alloys, particularly in the case of ratchetting–fatigue …
fatigue damage mechanisms of Mg alloys, particularly in the case of ratchetting–fatigue …
Effects of multiple overloads and high-low sequence loading on the fatigue crack propagation of AZ31B magnesium alloy
An experimental study was conducted to examine the initiation of cracks in the AZ31B
magnesium (Mg) alloy for tensile overload effects, exploring the influence of overload cycle …
magnesium (Mg) alloy for tensile overload effects, exploring the influence of overload cycle …
Mechanical responses and deformation mechanisms in the AZ31 magnesium alloy during cyclic bending
K Zhou, X Zhang, R Liu, X Sun, D Tang, D Li… - International Journal of …, 2024 - Elsevier
Cyclic loading behavior, such as cyclic bending, is unavoidably involved in various forming
processes and the service of end products. Understanding the mechanical behavior of …
processes and the service of end products. Understanding the mechanical behavior of …
Development of a novel approach to correlate small punch fatigue with uniaxial ratcheting fatigue
AV Pandey, K Mariappan, V Karthik, V Shankar… - International Journal of …, 2025 - Elsevier
The miniaturization of fatigue specimens has seen significant advancements, realized either
by scaling down conventional specimens while preserving their geometry or by …
by scaling down conventional specimens while preserving their geometry or by …
[HTML][HTML] Enhanced Cyclically Stable Plasticity Model for Multiaxial Behaviour of Magnesium Alloy AZ31 under Low-Cycle Fatigue Conditions
Magnesium alloys, particularly AZ31, are promising materials for the modern automotive
industry, offering significant weight savings and environmental benefits. This research …
industry, offering significant weight savings and environmental benefits. This research …
Multi-Mechanism Damage-Coupled Constitutive Model for Ratchetting-Fatigue Interaction of Extruded Az31 Magnesium Alloy
Y Lei, G Kang, C Yu - Available at SSRN 4963981 - papers.ssrn.com
Magnesium (Mg) alloy has attracted much attention because of its advantage in lightweight
design, and a theory of fatigue damage is a key issue for its engineering applications …
design, and a theory of fatigue damage is a key issue for its engineering applications …