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Numerical analyses showed that although the stress peaks are reduced, these act over a larger volume.
Therefore, although the stress calculation itself seems to favour a thinner bond coat, this will lead to deeper vertical cracks.
It was found that the lattice deforms in phase with the applied strain (although the stress is out-of-phase).
Although the stress maintains its rising trend by increasing density to values higher than the operational density, the rate of applied stress decreases.
At high temperature, power-law creep was the dominant deformation mechanism, although the stress of the power-law creep exceeded that of the Peierls mechanism below ~1000 K.
It is noticeable that although the stress at 90° is reduced for Rs = 1/4, the stress in another point around the hole is increased.
Similar(27)
Although the stress-pattern varies, it often echoes the paired lifts and drops of Anglo-Saxon alliterative metre - and many of the lines have two main stresses or "lifts".
Although the stress-strain profiles of (8,0) and (5,5) BNNTs seem very similar, the variations of HOMO-LUMO gaps at different strains are clearly different.
However, although the stress-strain relation of pristine graphene has been obtained in many theoretical studies, the nonlinear elasticity at a small strain has rarely been mentioned.
Although the stress-based topology optimization problem has been extensively studied for continuum structures, it is still an open problem and there is still room for improvements.
Although the stress-induced anisotropy is weak (i.e., isotropic components are all 99%%) for all grid points, there are components of the elastic tensor that require hexagonal and orthorhombic symmetry and hence do not fit elliptical anisotropy.
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Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com