کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
607965 | 880565 | 2012 | 9 صفحه PDF | دانلود رایگان |
The effect of flow configuration on the distribution of internal stresses in rigid colloidal aggregates was investigated numerically for cluster–cluster aggregates with fractal dimensions ranging from 1.7 to 2.3. Stokesian dynamics was used to evaluate the hydrodynamic force on each monomer, while the internal intermonomer interactions were calculated by applying force and torque balances on each primary particle. The examined two-dimensional flows were characterised by a mixing index λλ, that ranged from 0 (rotation) to 1 (elongation), with pure shear flow at λ=0.5λ=0.5. Two regimes of motion were identified: for λ≲0.6λ≲0.6 aggregates rotate continuously, whereas at higher values (λ≳0.7λ≳0.7) they reach a stationary orientation with respect to the flow field. A transition region, in which only some of the aggregates reach the stationary condition, separates the two regimes. The stationary regime appeared more favourable to induce breakage or restructuring, because in this case the generated internal stresses are sustained in time, while in the rotational regime they vary cyclically. We showed that the greater effectiveness of elongation with respect to shear can be explained by relating the condition of breakage to the time-averaged value of the internal stress rather than to the instantaneous value. By exploiting this relationship, the information on the viscous stress required to break or restructure an aggregate in a particular flow configuration can be easily extended to a different flow type.
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► The effect of the flow type on internal stresses in rigid aggregates was investigated.
► Two regimes of motion were identified: rotational and stationary.
► Breakage may be affected by the history of the applied stress.
Journal: Journal of Colloid and Interface Science - Volume 388, Issue 1, 15 December 2012, Pages 47–55