structure and morphology - polymer nanostructures and ...manias/matse259/lecture6.pdf · "...
TRANSCRIPT
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Structure and Morphology
• Into what types of overall shapesor conformations can polymerchains arrange themselves?
• How do polymer chains interactwith one another.
• Into what types of forms ormorphologies do the chains organize
• What is the relationship ofconformation and morphology topolymer microstructure.
• What is the relationship ofconformation and morphologyto macroscopic properties.
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GasGas
LiquidLiquid
SolidSolid((Crystalline)Crystalline)
SolidSolid((Glass)Glass)
EvaporationEvaporationCondensationCondensation
CrystallizationCrystallizationMeltingMelting
GlassGlassTransitionTransition
TemperatureTemperatureStates of Matter
• Solids• Liquids • Gases
Usually consider;
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Polymers No Gaseous No Gaseous StateState
ViscoelasticViscoelasticliquidliquid
SemicrystallineSemicrystallineSolidSolid Glassy SolidGlassy Solid
CrystallizationCrystallization
MeltingMelting
GlassGlassTransitionTransition
TemperatureTemperature
More complex behaviour
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“1st-Order” Transitions
GasGas
LiquidLiquid
SolidSolid((Crystalline)Crystalline)
Small Molecules
States of MatterVo
lume
TemperatureTc
CoolGas
Liquid
Solid
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Crystallizable materials can form metastable glasses.What about polymers like atactic polystyrene that cannot crystallize?
Observed Behavior depends on:•Structure•Cooling Rate•Crystallization Kinetics
The Glassy State
Glass Transition
Liquid
Gas
Glass
Crystal
Volume
TemperatureTg Tc
Cool
Liquid or MeltGlassy
Solid
CrystallineSolid
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The Issues• Bonding & the Forces between Chains• Conformations
• Ordered• Disordered
• Stacking or Arrangement of Chains in Crystalline Domains
• Morphology of Polymer Crystals
Polymer Structure
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Bonding and Intermolecular
Interactions
What are the forces between chains that provide cohesion in the solid state?
What determines how close these chains pack?
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Type ofType ofInteractionInteraction
CharacteristicsCharacteristics ApproximateApproximateStrengthStrength
ExamplesExamples
Dispersion Forces
Dipole/dipole Interactions(Freely Rotating)
Strong Polar Interactionsand Hydrogen Bonds
Coulombic Interactions(Ionomers)
Short RangeVaries as -1/r6
Short RangeVaries as -1/r6
Complex Formbut also
Short Range
Long RangeVaries as 1/r
About0.2 - 0.5 kcal/mole
About0.5 - 2 kcal/mole
About1 - 10 kcal/mole
About10 - 20 kcal/mole
Poly(ethylene)Polystyrene
(simple hydrocarbon polymers)
Poly(acrylonitrile)PVC
NylonsPoly(urethanes)
Surlyn
Increasing Interaction StrengthIncreasing Interaction Strength
SUMMARY
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Conformations
Ordered
Disordered
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THE STUDY OF FORM AND STRUCTURE
Polymer morphology - the study oforder within macromolecular solids
Our focus;
Morphology of semi - crystallinePolymers
Single crystal lamellaeSpherulitesFibers
Morphology
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X-ray Diffraction
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X-ray Diffraction
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X-ray Diffraction;The n- Alkanes and Polyethylene
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Polymers are Semicrystalline
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Melting Temperatures
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" POLYMERS HAD LAID UPON THEM THE CURSE OFNOT OBEYING THERMODYNAMICS "
• CRYSTALLINE MATERIALS– Either crystalline (~100 %, neglecting defects ) or amorphous at
a particular temperature– Melt at a sharp, well-defined temperature
• CRYSTALLIZABLE POLYMERS– Never 100% Crystalline– Melt over a Range of Temperatures
J.D.Hoffman,G.T.Davis,J.I.LauritzenIn “Treatise on Solid State Chemistry”N.B.Hannay,ed Vol 3, Ch7,Plenum PressNew York,1976
Crystallinity in Polymers
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• What is the Conformation of the Chains in the Crystalline Domains and how are they Stacked relative to one another?
• What is the Overall Shape and Form of the Crystals?
• What are the Relative Arrangements of the Crystalline and Amorphous Parts?
Questions
But now we can add to or list of questions, which have essentially become
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Polyethylene
Top view of Unit CellTop view of Unit CellSide viewSide view
Redrawn from C. W. Bunn, Fibers from Synthetic Polymers, R. Hill, Ed., Elsevier Publishing Co., Amsterdam, 1953.
The unit cell contains segments of different chains.
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Chain Arrangements and Morphology
??
??
Are some chains entirely within the crystalline part while others are entirely within amorphous bits ?
Do chains pass through both regions ?
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The Fringed Micelle Model
The First ReallyThe First ReallyUseful ModelUseful Model
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Single Crystal Lamellae
Courtesy of I.R. Harrison, Penn State
Reproduced with permission from P. H. Geil, Polymer Single Crystals, Robert E. Krieger Publishing Company, Huntington, New York, 1973.
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Polyethylene Single Crystals
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Regular Chain Folding
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The FlorySwitchboard Model
Regular Folding Chain(Adjacent Re-entry)
Irregular Chain Folding (Random Re-entry)
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The Flory Switchboard Model
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Redrawn from K. A. Dill and P. J. Flory,Proc. Nat. Acad. Sci., 77, 3115 (1980).
Crystalline Crystalline OrderOrder
Amorphous Amorphous RegionsRegions
Crystalline Crystalline OrderOrder
Flory Strikes Back!
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Spherulites
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Spherulites
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Fibers
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Fibers
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Fibers
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What we would like to get
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Property
Strength
Stiffness
Toughness
Optical Clarity
Barrier Properties
Solubility
Generally increases with degree of crystallinity
Generally increases with degree of crystallinity
Generally decreases with degree of crystallinity
Generally decreases with increasing degree of crystallinity.Semi-crystalline polymers usually appear opaque because of the difference in refractive index of the amorphous and crystalline domains, which leads to scattering. Will depend upon crystallite size.
Change with Increasing Degree of Crystallinity
Small molecules usually cannot penetrate or diffuse through the crystalline domains, hence “barrier properties”, which make a polymer useful for things like food wrap, increase with degree of crystallinity
Similarly, solvent molecules cannot penetrate the crystalline domains, which must be melted before the polymer will dissolve. Solvent resistance increases with degree of crystallinity