Stability of shear banding process in bulk metallic glasses and composites

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Stability of shear banding process in bulk metallic glasses and composites. / Qin, Yusheng; Han, Xiaoliang; Song, Kaikai et al.
In: Journal of materials research (JMR), Vol. 32.2017, No. July, 01.07.2017, p. 2560-2569.

Research output: Contribution to journalArticleResearchpeer-review

Harvard

Qin, Y, Han, X, Song, K, Wang, L, Cheng, Y, Zhang, Z, Xue, Q, Sun, N, Wang, J, Sun, B, Sarac, B, Spieckermann, F, Wang, G, Kaban, I & Eckert, J 2017, 'Stability of shear banding process in bulk metallic glasses and composites', Journal of materials research (JMR), vol. 32.2017, no. July, pp. 2560-2569. https://doi.org/10.1557/jmr.2017.243

APA

Qin, Y., Han, X., Song, K., Wang, L., Cheng, Y., Zhang, Z., Xue, Q., Sun, N., Wang, J., Sun, B., Sarac, B., Spieckermann, F., Wang, G., Kaban, I., & Eckert, J. (2017). Stability of shear banding process in bulk metallic glasses and composites. Journal of materials research (JMR), 32.2017(July), 2560-2569. https://doi.org/10.1557/jmr.2017.243

Vancouver

Qin Y, Han X, Song K, Wang L, Cheng Y, Zhang Z et al. Stability of shear banding process in bulk metallic glasses and composites. Journal of materials research (JMR). 2017 Jul 1;32.2017(July):2560-2569. doi: 10.1557/jmr.2017.243

Author

Qin, Yusheng ; Han, Xiaoliang ; Song, Kaikai et al. / Stability of shear banding process in bulk metallic glasses and composites. In: Journal of materials research (JMR). 2017 ; Vol. 32.2017, No. July. pp. 2560-2569.

Bibtex - Download

@article{d50bf5e5eb38400393f3e14731aefdd7,
title = "Stability of shear banding process in bulk metallic glasses and composites",
abstract = "The shear-band propagation in bulk metallic glasses (BMGs) during deformation plays a key role in determining their macroscopic ductility. In this work, the shear band propagation during plastic deformation was investigated in the Cu46Zr46Al8 BMG and its in situ or ex situ prepared BMG composites. Compared with the brittle BMG, both types of ductile BMG composites show a more stable shear banding behavior as revealed by a larger power-law scaling exponent obtained from statistical analysis of serrations recorded in compressive curves. A higher cut-off elastic energy density (δc) linked with the multiplication of shear bands is observed for the in situ prepared BMG composites. However, the ex situ fabricated BMG composites show an almost equivalent or slightly larger δc since the dominant shear band but not multiple shear bands mainly governs their deformation. Such observations imply that the shear banding stability of BMGs during deformation is enhanced not only by inducing multiple shear bands but also by obstructing the movement of the dominant shear band at its driven path.",
keywords = "amorphous, composite, ductility, rapid solidification",
author = "Yusheng Qin and Xiaoliang Han and Kaikai Song and Li Wang and Yun Cheng and Zequn Zhang and Qisen Xue and Nianzhen Sun and Jianguo Wang and Baoan Sun and Baran Sarac and Florian Spieckermann and Gang Wang and Ivan Kaban and J{\"u}rgen Eckert",
year = "2017",
month = jul,
day = "1",
doi = "10.1557/jmr.2017.243",
language = "English",
volume = "32.2017",
pages = "2560--2569",
journal = "Journal of materials research (JMR)",
issn = "0884-2914",
publisher = "Materials Research Society : MRS",
number = "July",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Stability of shear banding process in bulk metallic glasses and composites

AU - Qin, Yusheng

AU - Han, Xiaoliang

AU - Song, Kaikai

AU - Wang, Li

AU - Cheng, Yun

AU - Zhang, Zequn

AU - Xue, Qisen

AU - Sun, Nianzhen

AU - Wang, Jianguo

AU - Sun, Baoan

AU - Sarac, Baran

AU - Spieckermann, Florian

AU - Wang, Gang

AU - Kaban, Ivan

AU - Eckert, Jürgen

PY - 2017/7/1

Y1 - 2017/7/1

N2 - The shear-band propagation in bulk metallic glasses (BMGs) during deformation plays a key role in determining their macroscopic ductility. In this work, the shear band propagation during plastic deformation was investigated in the Cu46Zr46Al8 BMG and its in situ or ex situ prepared BMG composites. Compared with the brittle BMG, both types of ductile BMG composites show a more stable shear banding behavior as revealed by a larger power-law scaling exponent obtained from statistical analysis of serrations recorded in compressive curves. A higher cut-off elastic energy density (δc) linked with the multiplication of shear bands is observed for the in situ prepared BMG composites. However, the ex situ fabricated BMG composites show an almost equivalent or slightly larger δc since the dominant shear band but not multiple shear bands mainly governs their deformation. Such observations imply that the shear banding stability of BMGs during deformation is enhanced not only by inducing multiple shear bands but also by obstructing the movement of the dominant shear band at its driven path.

AB - The shear-band propagation in bulk metallic glasses (BMGs) during deformation plays a key role in determining their macroscopic ductility. In this work, the shear band propagation during plastic deformation was investigated in the Cu46Zr46Al8 BMG and its in situ or ex situ prepared BMG composites. Compared with the brittle BMG, both types of ductile BMG composites show a more stable shear banding behavior as revealed by a larger power-law scaling exponent obtained from statistical analysis of serrations recorded in compressive curves. A higher cut-off elastic energy density (δc) linked with the multiplication of shear bands is observed for the in situ prepared BMG composites. However, the ex situ fabricated BMG composites show an almost equivalent or slightly larger δc since the dominant shear band but not multiple shear bands mainly governs their deformation. Such observations imply that the shear banding stability of BMGs during deformation is enhanced not only by inducing multiple shear bands but also by obstructing the movement of the dominant shear band at its driven path.

KW - amorphous

KW - composite

KW - ductility

KW - rapid solidification

UR - http://www.scopus.com/inward/record.url?scp=85024112435&partnerID=8YFLogxK

U2 - 10.1557/jmr.2017.243

DO - 10.1557/jmr.2017.243

M3 - Article

AN - SCOPUS:85024112435

VL - 32.2017

SP - 2560

EP - 2569

JO - Journal of materials research (JMR)

JF - Journal of materials research (JMR)

SN - 0884-2914

IS - July

ER -

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