Calculation of Schmid factor in Mg alloys: Influence of stress state

A modified global Schmid factor under different stress states was developed by introducing the stress intensity to normalize the stress tensor. The new method offers an efficient way to compare the activation of one deformation mode under different stress states. The distributions of global Schmid f...

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Published inScripta materialia Vol. 171; pp. 31 - 35
Main Authors Xia, Dabiao, Chen, Xiang, Huang, Guangsheng, Jiang, Bin, Tang, Aitao, Yang, Hong, Gavras, Serge, Huang, Yuanding, Hort, Norbert, Pan, Fusheng
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.10.2019
Subjects
Global Schmid factor
Magnesium
Slip
Strength intensity
Twinning
Twinning
Strength intensity
Global Schmid factor
Magnesium
Slip
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Abstract A modified global Schmid factor under different stress states was developed by introducing the stress intensity to normalize the stress tensor. The new method offers an efficient way to compare the activation of one deformation mode under different stress states. The distributions of global Schmid factors for deformation modes in Mg alloys were also studied using this new method. The results indicated that stress state dominated the distributions of global Schmid factors for different deformation modes in a similar way. Additionally, the deformation compatibilities among deformation modes were also influenced by the stress state, especially under a biaxial stress state. [Display omitted]
AbstractList A modified global Schmid factor under different stress states was developed by introducing the stress intensity to normalize the stress tensor. The new method offers an efficient way to compare the activation of one deformation mode under different stress states. The distributions of global Schmid factors for deformation modes in Mg alloys were also studied using this new method. The results indicated that stress state dominated the distributions of global Schmid factors for different deformation modes in a similar way. Additionally, the deformation compatibilities among deformation modes were also influenced by the stress state, especially under a biaxial stress state. [Display omitted]
Author Tang, Aitao
Yang, Hong
Xia, Dabiao
Jiang, Bin
Hort, Norbert
Huang, Guangsheng
Gavras, Serge
Pan, Fusheng
Huang, Yuanding
Chen, Xiang
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Strength intensity
Global Schmid factor
Magnesium
Slip
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Snippet A modified global Schmid factor under different stress states was developed by introducing the stress intensity to normalize the stress tensor. The new method...
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SubjectTerms Global Schmid factor
Magnesium
Slip
Strength intensity
Twinning
Title Calculation of Schmid factor in Mg alloys: Influence of stress state
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