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W2804495884 startingPage "265901" @default.
W2804495884 abstract "Continuum modeling of finite temperature mechanical behavior of atomic systems requires refined description of atomic motions. In this paper, we identify additional kinematical quantities that are relevant for a more accurate continuum description as the system is subjected to step-wise loading. The presented formalism avoids the necessity for atomic trajectory mapping with deformation, provides the definitions of the kinematic variables and their conjugates in real space, and simplifies local work conjugacy. The total work done on an atom under deformation is decomposed into the work corresponding to changing its equilibrium position and work corresponding to changing its second moment about equilibrium position. Correspondingly, we define two kinematic variables: a deformation gradient tensor and a vibration tensor, and derive their stress conjugates, termed here as static and vibration stresses, respectively. The proposed approach is validated using MD simulation in NVT ensembles for fcc aluminum subjected to uniaxial extension. The observed evolution of second moments in the MD simulation with macroscopic deformation is not directly related to the transformation of atomic trajectories through the deformation gradient using generator functions. However, it is noteworthy that deformation leads to a change in the second moment of the trajectories. Correspondingly, the vibration part of the Piola stress becomes particularly significant at high temperature and high tensile strain as the crystal approaches the softening limit. In contrast to the eigenvectors of the deformation gradient, the eigenvectors of the vibration tensor show strong spatial heterogeneity in the vicinity of softening. More importantly, the elliptic distribution of local atomic density transitions to a dumbbell shape, before significant non-affinity in equilibrium positions has occurred." @default.
W2804495884 created "2018-06-01" @default.
W2804495884 creator A5011491987 @default.
W2804495884 creator A5017997193 @default.
W2804495884 creator A5043565203 @default.
W2804495884 date "2018-06-07" @default.
W2804495884 modified "2023-10-18" @default.
W2804495884 title "Finite-temperature stress calculations in atomic models using moments of position" @default.
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W2804495884 doi "https://doi.org/10.1088/1361-648x/aac52f" @default.
W2804495884 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29767631" @default.
W2804495884 hasPublicationYear "2018" @default.
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