Metallurgical Abstracts on Light Metals and Alloys vol.54
Roles of Slip and Twinning on Indentation Formations in Magnesium Alloy Single Crystals
Momoka Watanabe*, Hiromoto Kitahara**,***, Yohei Takamatsu*, Masayuki Tsushida**** and Shinji Ando***
*Graduate School of Science and Technology, Kumamoto University
**Institute of Pulsed Power Science, Kumamoto University
***Magnesium Research Center, Kumamoto University
****Faculty of Engineering, Kumamoto University
[Published in Materials Transactions, Vol. 61 (2020), pp. 948–954]
https://doi.org/10.2320/matertrans.MT-M2019371
E-mail: kitahara[at]msre.kumamoto-u.ac.jp
Key Words:basal slip, second order pyramidal slip, {1012} twin, critical resolved shear stress
Indentation tests using a spherical indenter were applied to six hexagonal close-packed structure single crystals - pure Mg, Mg-0.5at%Al, Mg-0.5at%Zn, Mg-0.5at%Y, Mg-0.9at%Y, and pure Zn single crystals - to investigate the roles both slips and twinning induce on the formation of indentation. Indented on (0001), all single crystals displayed circular morphology without slip lines or twins. Mg and Mg alloys’ indentation sizes were found dependent on critical resolved shear stress (CRSS) for basal slip in (0001) indentations, while Zn (0001) indentation size depends on CRSS for both basal and pyramidal slips. Conversely, when indented on (1010) and (1210), all single crystals displayed indentations elongated to [0001] surrounded by basal slip lines. Also, {1012} twins were observed in Mg-0.5at%Al and Mg-0.5at%Zn but were scarce in Mg-Y. Pure Zn displayed second order pyramidal slips. Sizes of both (1010) and (1210) indentations were found dependent on CRSS for basal slips and for {1012} twins.
Indentation tests using a spherical indenter were applied to on (1210). The indentation morphology, twins and slip lines depend on alloying elements.