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Polymers Engineering Fundamentals
PE-2102
Week 9
Lecture 25-28
Rheology
• Rheology is a Greek word (first used by
Bingham and Crawford)
• Rheo – to flow
• ology – the study of
• Rheology is the study of the flow and
deformation of materials that behave in usual or
unusual manner.
• Unusual materials such as mayonnaise, peanut
butter, chocolate, bread dough, paints, inks,
road building materials, cosmetics, dairy
products, etc.
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Deformation of Materials
- Elastic and Plastic Deformation
Rheology
• Newton was the first
to study the flow
properties of liquids
in quantitative
terms.
• Liquids that obey
Newton’s law of
flow are called as
Newtonian fluids.
F=nG
Flow of Materials
- Newtonian and Non-Newtonians Fluids
Rheology
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• Non - Newtonian bodies are those substances,
which fail to follow Newton's law
• For example: liquid & solid, heterogeneous
dispersions such as colloidal solutions,
emulsions, liquid suspensions and ointments.
Flow of Materials
- Newtonian and Non-Newtonians Fluids
Rheology
1. Bingham Body Plastic Flow
- Fluids that do not flow until the yield
stress value is not achieved.
- Therefore, its curve do not start from
origin.
- But starts at a point where yield stress
value crosses the yield shear stress value.
- Examples are Toothpaste, Mayonnaise etc.
Rheology
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1. Pseudoplastic Flow
- The viscosity of fluid do not remain
constant at different rate of shear.
- The viscosity decrease with increase
in shear rate nonlinearly.
- Such fluid are also called as Shear
thinning fluid.
- Its curve starts from origin and mostly
is responded by long chain polymers.
Rheology
3. Dilatant Flow
- Certain suspension with high %age of
dispersed solids show increase in
viscosity with increase in shear rate.
- They are also called as shear thickening
fluids.
- Named Dilatant as their volume
increases upon increase in shear stress.
Rheology
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Examples
Rheology
Viscosity
• Viscosity is the resistance of a fluid (liquid or gas) to a
change in shape or movement of neighboring portions
relative to one another.
• Viscosity denotes opposition to flow.
• The viscosity of a fluid is a measure of its resistance
to deformation at a given rate.
• For liquids, it corresponds to the informal concept of
"thickness": for example, syrup has a higher viscosity
than water.
Rheology
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Viscosity
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Rheology
Factors that affect Viscosity
• Viscosity increases with increase in
interaction between molecules
• Viscosity decreases with increase in
Temperature due to lower interaction
between molecules.
• Viscosity increases with increasing size of
molecules due to increased polarity and
intermolecular forces.
The reciprocal of viscosity is called fluidity, 1/n
Viscosity
Viscosity
Rheology
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Why polymers show Visco-Elastic Behavior?
Rheology
Why polymers show Visco-Elastic Behavior?
Rheology
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Creep is defined as a time-
dependent deformation at
elevated temperature and
constant stress.
Stress relaxation depicts how viscoelastic
materials, especially polymeric materials,
relieve stress under constant strain.
When a deforming force is applied on a body then the strain does not change
simultaneously with stress rather it lags behind the stress results in hysteresis effect.
Visco-Elastic Properties
Rheology
Importance of Rheology Studies
• Rheology (particularly in the study of the viscous flow
of polymers) is very important because it gives a
relationship between the properties, structure and
processing of the materials.
• Rheology helps describe the mechanical behaviour of
materials as a function of stresses (shear rate), strain
, temperature and pressure in order to develop
materials with the correct processing behaviour based
on their viscosity, elasticity and time.
• These parameters can be calculated using a dynamic
mechanical testing method at melt temperatures.
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• The use of rheometers or viscometers
to determine the rheological
properties of materials with the
measured values based on force,
length and time.
• Rheometers are devices use to
determine both the viscous and
viscoelastic properties of materials
depending on the force exerted in
both the rotational and oscillatory
test.
• While on the other hand viscometers
are devices use to determine the
viscosity depending on the rotation,
temperature and time.
Measurement of Rheological properties
• In a rotational rheometer the sample is
sheared between two plates or a cone
and plate geometry.
• The viscosity is calculated as the ratio of
the applied stress and the applied
deformation rate (rotation speed).
• This instrument in the case of polymers is
used to extract information about the
average molecular weight and molecular
weight distribution via measurement of
the viscoelastic properties and thus
determine how this affects the processing
characteristics of the material.
Measurement of Rheological properties
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• Capillary rheometers are mostly used to examine processing
behaviour, rather than just determining the rheological parameters.
• In a capillary rheometer the material is forced through a slit or round
die.
• From the pressure drop and the volume flow rate, a steady state
viscosity as a function of the applied rate (piston speed) or stress
(applied pressure) is measured.
• Advantages:
(1) Can operate at high shear rates
(2) May be closer to real processing situation than a rotational
rheometer
• Disadvantages:
(1) Shear rate is not uniform
(2) Wall slip
(3) Melt fracture
(4) Difficult to clean
In addition we also have gravity driven capillary rheometers also
called viscometers but mostly function for viscous Newtonian fluids.
Measurement of Rheological properties
Capillary Rheometer
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