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Exact(30)
The evolution of the stress parameters in the extensive model is more complicated (i.e., nonlinear).
Results in the form of animations show a complex evolution of the stress field.
This hypothesis is based on the time evolution of the stress state during one load cycle.
The theoretical description of the initiation, propagation and evolution of the stress pulse during impact was generalized and formulized.
The evolution of the stress intensity factor and the size of the caustic spot at the notch tip are analyzed.
For the extensive reservoir, the evolution of the stress anisotropy is characteristic of uniaxial compaction (see Fig. 5 in Pouya et al. 1998).
Similar(30)
In addition to quantitative information about evolution of the stress-strain fields, the following unexpected results are obtained.
During the isothermal stage the d-spacing changes measured in the stressed sample were dominated by the evolution of the stress-free d-spacing resulting in only very limited further stress relaxation.
The first modeling results for three-dimensional plastic flow and evolution of the stress-strain state for a rhenium sample compressed and twisted in RDAC under megabar pressures are presented.
Meanwhile, the study of rapid thermal annealing duration on the film stress demonstrated that the evolution of the residual stress was mainly controlled by the intrinsic stress generation dynamics and stress relaxation.
A short time scale correspond to the evolution of the parameters (stress, damage, plastic strain, etc).
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