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2021 | OriginalPaper | Chapter

Understanding Twinning-Detwinning Behavior of Unalloyed Mg During Low-Cycle Fatigue Using High Energy X-ray Diffraction

Authors : Aeriel D. Murphy-Leonard, Darren C. Pagan, Armand Beaudoin, Matthew P. Miller, John E. Allison

Published in: Magnesium Technology 2021

Publisher: Springer International Publishing

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Abstract

It is well understood that twinning during deformation plays an important role in deformation of Mg and its alloys [1‐8]. In hexagonal close packed (HCP) Mg alloys, the dominant deformation mode at room temperature is <a> slip on the basal (0001) plane Mg [9, 10]. The other slip systems—prismatic <a> slip, pyramidal <a> slip, and pyramidal <c + a> slip—require much higher stresses to activate during deformation [11]. Mechanical twinning allows for grains to easily deform along their c-axis [12] and has been the focus of significant, active research [e.g., 13‐23].

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previous chapter Three-Dimensional Atomistic Simulations of Non-cozone Twin–Twin Interaction in Mg—Role of Twin Stability and Mobility

next chapter The Effects of Basal and Prismatic Precipitates on Deformation Twinning in AZ91 Magnesium Alloy

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F. Mokdad, D.L. Chen, Strain-controlled low cycle fatigue properties of a rare-earth containing ZEK100 magnesium alloy, Materials & Design 67 (2015) 436–447.

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A. Murphy-Leonard, D. Pagan, A. Beaudoin, M. Miller, J. Allison, Quantification of Twinning-Detwinning Behavior During Low-Cycle Fatigue of Pure Magnesium Using High Energy X-Ray Diffraction, International Journal of Fatigue 125 (2019) pp 314-323

Title: Understanding Twinning-Detwinning Behavior of Unalloyed Mg During Low-Cycle Fatigue Using High Energy X-ray Diffraction
Authors: Aeriel D. Murphy-Leonard
Darren C. Pagan
Armand Beaudoin
Matthew P. Miller
John E. Allison
Publisher: Springer International Publishing
Book: Magnesium Technology 2021
Print ISBN: 978-3-030-65527-3

Electronic ISBN: 978-3-030-65528-0

Copyright Year: 2021
DOI: https://doi.org/10.1007/978-3-030-65528-0_12

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