A statistical analysis of the second ‘pop-in’ behaviour of the spherical-tip nanoindentation of Zr-based bulk metallic glasses

Page view(s)
12
Checked on Aug 27, 2025
A statistical analysis of the second ‘pop-in’ behaviour of the spherical-tip nanoindentation of Zr-based bulk metallic glasses
Title:
A statistical analysis of the second ‘pop-in’ behaviour of the spherical-tip nanoindentation of Zr-based bulk metallic glasses
Journal Title:
Materialia
Keywords:
Publication Date:
28 July 2023
Citation:
Saini, P., Nag, S., Jang, J., Choi, I.-C., Ramamurty, U., Narayan, R. L. (2023). A statistical analysis of the second ‘pop-in’ behaviour of the spherical-tip nanoindentation of Zr-based bulk metallic glasses. Materialia, 31, 101862. https://doi.org/10.1016/j.mtla.2023.101862
Abstract:
Statistical analyses of the shear stresses, τy, at which the first ‘pop-ins’ occur during the spherical tip nanoindentation of a wide variety of materials is often conducted to understand the micromechanisms of incipient plasticity. In an earlier paper, we reported such a study on data generated on several different Zr-based bulk metallic glasses (BMGs) using a wide range of experimental variables, such as the tip radius, Ri, loading rate, P˙, and structural state of the glass. In the present work, we analyse the second pop-in stress, τ2, data employing the expectation maximization algorithm in conjunction with the Akaike Information Criterion to examine which of the single and mixed (bimodal) versions of the Gaussian, Lognormal and Weibull (both 2 and 3 parameter) statistical models best describes the stochasticity of τ2. Results show that the 3-parameter Weibull distribution also captures the stochasticity of τ2, just as it does for τy. For datasets of τ2 that are generated with larger Ri and P˙, the bimodal 3-parameter Weibull distribution is a better descriptor of the dispersion. While Weibull exponent, m, of τ2 datasets is marginally higher than that of τy, their kernel density estimates (KDEs) are similar. However, there is a relative shift of the KDEs of τ2 to smaller values compared to that of τy. From mechanistic arguments, τ2 is determined as the stress to nucleate a second shear band over a previously formed shear band and its stochasticity is attributed solely to the mechanical heterogeneity of the material within it. On this basis, the average shear strength of the shear band is estimated to be ∼8–11% and 15–17% lower than the strength of the undeformed BMG in the as cast condition and structurally relaxed conditions, respectively. This study provides an understanding of how plasticity develops in BMGs during nanoindentation.
License type:
Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0)
Funding Info:
This research / project is supported by the Agency for Science, Technology and Research - Structural Metal Alloys Programme
Grant Reference no. : A18B1b0061
Description:
ISSN:
2589-1529
Files uploaded:

File Size Format Action
139.pdf 979.16 KB PDF Open