A new deformation mechanism of amorphous/amorphous laminates at deep nanoscale

L. Huang; P. Huang; F. Wang

doi:10.1016/j.msea.2021.140923

A new deformation mechanism of amorphous/amorphous laminates at deep nanoscale

L. Huang
, P. Huang
, F. Wang

School of Materials Science and Engineering

Xi'an Jiaotong University

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

The plastic deformation and mechanical response of ZrCu/ZrCuNiAlSi amorphous/amorphous nanolaminates (A/ANLs) with various individual layer thickness (h) were investigated by nanoindentation test. As h decreases, deformation behavior transformed from shear-banding events to homogeneous co-deformation of the constitute layers. The homogeneous deformed A/ANLs exhibit the maximum shear transformation zone volume and unexpected minimum strain rate sensitivity m, suggesting a distinct deformation mechanism from others. Interface effected zones that involved in the deformation of the A/ANLs with minimum h but not those with higher h was proposed to play a dominating role in determining the homogeneous deformation and the unusual thermally activated parameters.

Original language	English
Article number	140923
Journal	Materials Science and Engineering: A
Volume	809
DOIs	https://doi.org/10.1016/j.msea.2021.140923
State	Published - 30 Mar 2021

Keywords

Activation volume
Amorphous alloy
Nanolaminates
Shear-banding
Strain rate sensitivity

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10.1016/j.msea.2021.140923

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title = "A new deformation mechanism of amorphous/amorphous laminates at deep nanoscale",

abstract = "The plastic deformation and mechanical response of ZrCu/ZrCuNiAlSi amorphous/amorphous nanolaminates (A/ANLs) with various individual layer thickness (h) were investigated by nanoindentation test. As h decreases, deformation behavior transformed from shear-banding events to homogeneous co-deformation of the constitute layers. The homogeneous deformed A/ANLs exhibit the maximum shear transformation zone volume and unexpected minimum strain rate sensitivity m, suggesting a distinct deformation mechanism from others. Interface effected zones that involved in the deformation of the A/ANLs with minimum h but not those with higher h was proposed to play a dominating role in determining the homogeneous deformation and the unusual thermally activated parameters.",

keywords = "Activation volume, Amorphous alloy, Nanolaminates, Shear-banding, Strain rate sensitivity",

author = "L. Huang and P. Huang and F. Wang",

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year = "2021",

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day = "30",

doi = "10.1016/j.msea.2021.140923",

language = "英语",

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TY - JOUR

T1 - A new deformation mechanism of amorphous/amorphous laminates at deep nanoscale

AU - Huang, L.

AU - Huang, P.

AU - Wang, F.

PY - 2021/3/30

Y1 - 2021/3/30

N2 - The plastic deformation and mechanical response of ZrCu/ZrCuNiAlSi amorphous/amorphous nanolaminates (A/ANLs) with various individual layer thickness (h) were investigated by nanoindentation test. As h decreases, deformation behavior transformed from shear-banding events to homogeneous co-deformation of the constitute layers. The homogeneous deformed A/ANLs exhibit the maximum shear transformation zone volume and unexpected minimum strain rate sensitivity m, suggesting a distinct deformation mechanism from others. Interface effected zones that involved in the deformation of the A/ANLs with minimum h but not those with higher h was proposed to play a dominating role in determining the homogeneous deformation and the unusual thermally activated parameters.

AB - The plastic deformation and mechanical response of ZrCu/ZrCuNiAlSi amorphous/amorphous nanolaminates (A/ANLs) with various individual layer thickness (h) were investigated by nanoindentation test. As h decreases, deformation behavior transformed from shear-banding events to homogeneous co-deformation of the constitute layers. The homogeneous deformed A/ANLs exhibit the maximum shear transformation zone volume and unexpected minimum strain rate sensitivity m, suggesting a distinct deformation mechanism from others. Interface effected zones that involved in the deformation of the A/ANLs with minimum h but not those with higher h was proposed to play a dominating role in determining the homogeneous deformation and the unusual thermally activated parameters.

KW - Activation volume

KW - Amorphous alloy

KW - Nanolaminates

KW - Shear-banding

KW - Strain rate sensitivity

UR - https://www.scopus.com/pages/publications/85101989406

U2 - 10.1016/j.msea.2021.140923

DO - 10.1016/j.msea.2021.140923

M3 - 文章

AN - SCOPUS:85101989406

SN - 0921-5093

VL - 809

JO - Materials Science and Engineering: A

JF - Materials Science and Engineering: A

M1 - 140923

ER -

A new deformation mechanism of amorphous/amorphous laminates at deep nanoscale

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Keywords

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