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Steady Shear Rheological Behavior of PVC Plastisols
S. Jack Willey, C. W. Macosko
Chemical Engineering and Materials Science
Research output
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Contribution to journal
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Article
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peer-review
71
Scopus citations
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Dive into the research topics of 'Steady Shear Rheological Behavior of PVC Plastisols'. Together they form a unique fingerprint.
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Keyphrases
Rheological Behavior
100%
Steady Shear
100%
Plastisol
100%
PVC Plastisol
100%
Shear Rheological
100%
Resin
40%
Particle Size
40%
Plasticizer
40%
Shear Rate
40%
Partial Dissolution
40%
Resin Particles
40%
Emulsion
20%
Viscosity
20%
Dispersed Phase
20%
Shear Stress
20%
Peclet number
20%
Size Dependence
20%
Relaxation Time
20%
Interparticle Interactions
20%
Normal Stress
20%
Particle Surface
20%
Master Curve
20%
Non-Newtonian
20%
Rate Dependence
20%
Viscoelastic Response
20%
Particle Radius
20%
Steady Shear Flow
20%
Brownian Motion
20%
Brownian Diffusion
20%
Relative Viscosity
20%
Phase Volume Fraction
20%
Newtonian Behavior
20%
Continuous Phase Viscosity
20%
Critical Shear Rate
20%
Rigid Sphere
20%
Engineering
Rheological Behavior
100%
Shear Rate
100%
Fluid Viscosity
66%
Resin Particle
66%
Shear Flow
33%
Continuous Phase
33%
Master Curve
33%
Rate Dependence
33%
Rate Range
33%
Brownian Diffusion
33%
Particle Surface
33%
Relative Viscosity
33%
Peclet Number
33%
Newtonian Behaviour
33%
Relaxation Time
33%
Material Science
Polyvinyl Chloride
100%
Plastisols
100%
Plasticizer
33%
Shear Flow
16%
Volume Fraction
16%
Particle-Particle Interaction
16%
Surface (Surface Science)
16%
Chemical Engineering
Polyvinyl Chloride
100%
Peclet Number
50%