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Disruption of polystyrene latex aggregates in capillary flow
S. Tang
*
, C. M. McFarlane,
Z. Zhang
*
Corresponding author for this work
Chemical Engineering
Research output
:
Contribution to journal
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Article
›
peer-review
3
Citations (Scopus)
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Engineering & Materials Science
Agglomeration
47%
Capillary flow
100%
Capillary tubes
7%
Citric acid
8%
Colloids
70%
Electrolytes
5%
Fractal dimension
6%
Fractals
5%
Heavy water
8%
Lasers
4%
Latexes
82%
Phosphates
6%
Polystyrenes
75%
Sampling
3%
Scattering
5%
Sedimentation
7%
Shear deformation
10%
Shearing
11%
Turbulent flow
5%
Water
5%
Physics & Astronomy
buffers
4%
capillary flow
91%
capillary tubes
7%
citric acid
7%
colloids
48%
electrolytes
4%
elimination
5%
fractals
10%
heavy water
6%
lasers
2%
latex
74%
phosphates
5%
polystyrene
58%
sampling
4%
scattering
2%
shear
7%
shearing
11%
turbulent flow
5%
water
6%
Chemistry
Buffer Solution
4%
Capillary Tube
9%
Citric Acid
6%
Colloid
61%
Deuterium(.)
6%
Dimension
5%
Flow
42%
Mixture
3%
Oxide
3%
pH Value
6%
Phosphate
4%
Reduction
3%
Sampling
6%
Sedimentation
7%
Shear
13%
Solvent
3%