2014
DOI: 10.1103/physreve.90.042313
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Microscopic description of flow defects and relaxation in metallic glasses

Abstract: The anelastic relaxation behavior of amorphous Al86.8Ni3.7Y9.5 was characterized in prolonged, quasistatic measurements, up to 1.1×10(8) s. The size-density distribution of potential shear transformation zones was determined from the data. We derive an expression for the distribution, based on a free-volume criterion for an atomic cluster being a potential shear transformation zone. The model is shown to be consistent with experiment.

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Cited by 28 publications
(30 citation statements)
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“…at the final states, denoted as "rlx" in the legend of Fig.2.b), the average size increases to around 17, which is consistent with reported STZs sizes (from 10 to 30 atoms) measured in a number of experiments [37][38][39][40][41] and simulations [4,8,35,42,43]. It is worth noting that, the size distributions of SYS-I and SYS-II overlap well at relatively small sizes (less than 30 atoms), suggesting a system-independent deformation mechanism in this regime.…”
supporting
confidence: 75%
“…at the final states, denoted as "rlx" in the legend of Fig.2.b), the average size increases to around 17, which is consistent with reported STZs sizes (from 10 to 30 atoms) measured in a number of experiments [37][38][39][40][41] and simulations [4,8,35,42,43]. It is worth noting that, the size distributions of SYS-I and SYS-II overlap well at relatively small sizes (less than 30 atoms), suggesting a system-independent deformation mechanism in this regime.…”
supporting
confidence: 75%
“…For example, materials are typically deemed reversible in the regime where the stress-strain curve is linear, and irreversible in the regime where plastic flow occurs [48]. Reversibility has been studied experimentally using enthalpy [18] and strain recovery [19], elastostatic compression [16], nanoindentation [10], and quality factor measurements [49]. In simulations, reversibility has been studied using cyclic shear of model glasses [17,[50][51][52][53][54].…”
Section: Resultsmentioning
confidence: 99%
“…Amorphous solids, including metallic, polymeric, and colloidal glasses, possess complex mechanical response to applied deformations, such as plastic flow [1][2][3][4], strain localization [5][6][7][8][9], creep flow [7,10,11], and fracture [12][13][14]. In crystalline materials, topological defects reflecting the symmetry of the crystalline phase govern response to deformation.…”
Section: Introductionmentioning
confidence: 99%
“…Since a finite number of STZ sizes affect the anelastic relaxation at a given temperature, we approximate for simplicity and without loss of generality the qualitative shape of the spectrum obtained in Refs. [2,7] with five STZ sizes (N = 5 in Fig. 1).…”
Section: Resultsmentioning
confidence: 99%