1998
DOI: 10.1016/s1359-6454(98)00150-5
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Yield stress of fine grained materials

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Cited by 432 publications
(204 citation statements)
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“…4. The volume of grains follows a log-normal distribution, which has been observed to be reasonable in many metals, alloys and ceramic systems [4,5,43]. Hence, the log-normal distribution is chosen to represent the grain size distribution in the present investigation and may be expressed as,…”
Section: Modelingmentioning
confidence: 99%
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“…4. The volume of grains follows a log-normal distribution, which has been observed to be reasonable in many metals, alloys and ceramic systems [4,5,43]. Hence, the log-normal distribution is chosen to represent the grain size distribution in the present investigation and may be expressed as,…”
Section: Modelingmentioning
confidence: 99%
“…We consider the grain size distribution which follows a log-normal function. To facilitate the analysis, the following assumptions similar to those specified in [4,8] are used. …”
Section: Modelingmentioning
confidence: 99%
See 1 more Smart Citation
“…In an attempt to explain nanoscale softening in Cu, Masumara et al [39] has proposed a model involving Coble creep with a threshold stress s 0 that is inversely related to grain size. The equation proposed by Masumara et al is given as [39] s ¼ s 0 þ Bd 3 ½9a…”
Section: Modified Coble Creepmentioning
confidence: 99%
“…[9a] with the equation representing conventional Hall-Petch behavior, Masumara et al [39] predicted that for Cu, the average critical grain size for a transition from hardening to softening is approximately 20 nm. This value is in agreement with the value of 25 nm inferred from experimental data.…”
Section: Modified Coble Creepmentioning
confidence: 99%