dr patrick fairclough [email protected] d50 ... · semi-crystalline polymers most...
TRANSCRIPT
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Thermoplastics
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Semi-crystalline Polymers Most commercial thermoplastic polymers are part
amorphous, part crystalline. Semicrystalline. Crystalline lamellae, separated by amorphous regions. Gives the ability to maintain shape but resist impact. On heating the lamellae melt and the polymer flows,
usually with a high viscosity due to chain entanglement.
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Lamella Crystalline and amorphous regions The crystal does not have perfect
edges, they are made up of folded chains
There is a small transition zone from pure crystal to amorphous (greatly exaggerated on this slide)
In addition not all the lamella will be the same size.
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Tie molecule
Amorphous region
Crystalline lamella
Transition zone
Transition zone
Crystalline lamella
Amorphous region
Transition zone
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Polymer morphology A semi-crystalline
polymer has a hierarchical structure.
Some parts of the polymer chain crystallise. These regions give rise
to a WAXS (Wide angle X-ray, XRD) diffraction pattern.
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WAXS WAXS measures the interatomic
spacings within the unit cell. The PE unit cell is orthorhombic
(all angles 90° all sides different lengths).
The plane separation for an orthorhombic cell is given by a,b,c are the lengths of the sides. h,k,l are the Miller indices of the
planes. Different unit cells have
different formula.
22
22
222
1111 lc
kb
hadhkl
++=
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WAXS The degree of
crystallinity can be calculated from WAXS.
The degree of crystallinity is related to the area under the crystalline and amorphous peaks.
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WAXS Therefore WAXS will give you structural
information about the unit cell. This is normally prior knowledge as most polymer
structures have been determined. Its rare you get a completely new polymer to work on.
WAXS gives a check on the structure and points to preferred orientation of the crystal lamella and the degree of crystallinity.
To determine this you would run a Rietveld analysis. The performs a fit to the pattern and determines a,b,c and the
predicted intensities.
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Peak Width The peak width increases
due to instrument resolution if the crystals are under strain If the crystal size reduces
Scherrer equation gives an estimate of the crystal size from the width of the peak.
β is the full width at half height λ is the wavelength of the x-rays t is the thickness of the crystal And 2θ is the scattering angle K is a constant close to one that
accounts for the particle shape (usually about 0.95) for most systems. θ
λβcostK
=
9
β
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WAXS WAXS or XRD is the most common form of
scattering you will encounter. The equipment is in most research labs. Most equipment will collect “powder” patterns.
That means it relies on there being no preferred orientation within the material.
This is a BIG problem for polymer materials Any form of deformation results in chains becoming elongated.
Its much better to collect the full pattern if possible.
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PEO Pattern
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Which is correct?
θ
φ
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PEO pattern
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A f integration is a solution but you loose all the
orientation information.
This corresponds to what the database says PEO looks like, but it tells you nothing beyond it is PEO
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Polymer crystal structure WAXS is used to determine
the crystal structure. The principle is basically
that due to Bragg That a series of crystal
planes gives rise to a scattering maxima (spot) in reciprocal space
The position of these spots is given by the Bragg equation.
θλ sin2 hkldn =
13
λ is the wavelength n is the order 1,2,3,4… dhkl is the interplanar spacing for indices hkl θ is the angle between the incident beam and the scattering plane, which is the same as the angle between the scattered beam and the plane.
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θ or how to confuse things in scattering Often in WAXS the same
notation is used for two different things the most common case is the use of the Greek symbol θ (theta).
For Braggs law
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θ θ
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θ or how to confuse things in scattering For SAXS The scattering angle is
defined as 2θ. In fact they are the same
thing.
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2θ
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θ and 2θ Using simple trig. It is relatively easy to show
that if the incident angle is θ then the scattering angle is 2θ.
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φ = 2θ
θ θ
90°
θ
θ θ θ
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Back to Bragg So the scattering maxima (reflections) are dependent
on the layer spacing of the planes. These planes have different discrete spacings
depending on the lattice geometry. This results in missing reflections and these tell you
about the internal structure of the unit cell.
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Braggs law The extra path ABC is
dsinθ. If this is a integral
number of wavelengths (nλ) Then there will be
constructive interference. Therefore, a given
reflection can be indexed to a diffracting plane
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φ = 2θ
θ θ
90°
θ
θ θ θ
A
B
C
90-θ
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Degree of Crystallinity If the Bragg peaks are from the crystal then you should
be able to calculate he degree of crystallinity from the WAXS pattern.
In principle this is possible however the accuracy is not that good and its best limited to comparable measures.
SAXS, density and DSC give more reliable answers.
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Degree of Crystallinity The idea is that you can
break the scattering up into regions. One from the crystals (C) One from the amorphous
(A) And one from incoherent
scatter. (IS) Then the ratio of C/(C+A)
gives the degree of crystallinity.
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q2I(q)
q /Å-1
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Degree of Crystallinity The problem with this method is that its difficult to
determine the exact curve of the incoherent scatter. Ruland does give a functional form
W. Ruland Acta Cryst 14 1180 (1961) But this is not exact. Therefore the method is best limited to comparing the
effects of processing on a given material.
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Degree of Crystallinity The next option is to measure a
completely amorphous sample (quenched from high temperature)
Use this as a background to establish the correct form of the amorphous halo and the incoherent scatter.
Then perform the calculation of crystallinity as before.
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x 0.5
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WAXS and Crystallinity Most people seem to think that WAXS is good at
determining the degree of crystallinity ITS NOT. Because of the uncertainty in the incoherent scattering. There have been many attempts to overcome this with
varying degrees of success. If I were asked to determine the degree of crystallinity I
would use a DSC. But of course this only works for a thermoplastic material, but
most thermosets are amorphous anyway. In this case use SAXS and correlation function.
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WAXS and Structure What WAXS is very good at is structure
Not the amount of structure But what structures you have
How the atoms pack in the crystal How big the crystals are What orientation the crystals are in What preferred growth directions occur in the crystals.
For this information POLE figures are required. Pole figures have a reputation as a specialist technique and
require a 3 circle goniometer for the diffractometer.
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Orientation in polymers Terms:
For an extruded film: Machine direction: Direction the film/fibre comes out of the
extruder (MD) Transverse direction: Perpendicular direction, parallel to the film
surface (TD) Normal direction: Perpendicular direction normal to the film
surface (through the film) (ND) For a blow moulded film MD and TD show similar orientation as
the extension occurs simultaneously. For stenter films MD usually shows more orientation than TD
For a cast sample Flow direction: Not as well defined as for films as flow tends to be
divergent in a die. To determine orientation of crystals POLE figures are used.
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SAXS (Small Angle X-ray Scattering) SAXS can measure the lamella spacing in a semi-
crystalline polymer. SAXS can do much more but due to time limitations this
will be the main subject. SANS can also measure it. The position of the diffraction maximum is related to
the lamella d spacing. The larger d the smaller the angle the scattering
appears at.
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SAXS In SAXS you would normally measure the scattered
intensity (I) as a function of q rather than θ (angle). Usually q has units of Å-1 or nm-1 (reciprocal Angstrom
or reciprocal nanometres) 1Å =10-10m (Angstrom) 1Å-1 =1010m-1
1nm =10-9m
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Guinier Model Ideal Chain (in the melt or in solution)
Freely jointed chain Self avoiding random walk Restricted bonds Real chain
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Polymer Coil The simplest model of a polymer
is the freely jointed chain. Here the bond angles can be any value (even 0°).
It’s chemically not particularly accurate but it does give a reasonable model of the size and shape of a polymer molecule.
RG is the radius of gyration, and measures the average distance from a point on the chain to the centre of mass.
( ) ( )12)( 22222
22
−+= −G
Rq
G
RqeRq
qP G
6
22 NlRG
=
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Debye (1947)
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Guinier Approximation ( )
ρηφ
A
G
NMRqqI
222
3))(ln( +
−≈
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I ~q(-2.01 ± 0.002)
scattered intensity for a melt of h- and d-polystyrene (from Schwahn, 1991 using SANS)
For qRg<<1 (very much less than 1, i.e. 0.1 or less)
Clearly the intercept is only valid if the Intensity units are absolute.
You can calculate the size of the chain in solution.
SANS: You can calculate the size of a hydrogenous polymer in a deuterated one: Natural size of the polymer.
Gradient gives -Rg2/3
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Lamella Semi-crystlline. SAXS measures the d spacing (d in the
picture) The crystal does not have perfect
edges, they are made up of folded chains
There is a small transition zone from pure crystal to amorphous (greatly exaggerated on this slide)
In addition not all the lamella will be the same size.
As a result the SAXS peak is broadened.
To determine the crystal morphology the correlation function is used. See Strobl, G. R. and Schneider, M. J.,
Polym. Sci. (1980) 18, 1343-1359 Also Strobl: The Physics of Polymers:
Concepts for Understanding Their Structures and Behavior
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Tie molecule
Amorphous region
Crystalline lamella
Transition zone
Transition zone
Crystalline lamella
Amorphous region
Transition zone
d
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SAXS
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Scattering close to
beam stop not a real
peak
Scattering peak due to lamella
structure
Tail scattering tells you about the interface
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Lorentz Correction There is a problem with scattering from 1 D stuff. Scattering is a 2D representation of a 3D system. Therefore the I(q) data from SAXS will give the wrong
structural information. To resolve this issue the data must be multiplied by
q2first. This is termed the Lorentz correction.
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Lorentz Correction
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D spacing from this
peak
D=2π/q* = 2π/0.045 = 155Å Weak second
order can now be seen
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SAXS But just finding the d spacing tells you very little and
you are throwing away a lot of information if this is all you do.
To extract more information you should run a correlation function analysis.
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Correlation function The one dimensional correlation
function is useful for determining the structure of a semi-crystalline polymer.
It assumes that the scattering is due to a linear arrangement of lamella stacks. While this may not always be the case
it can still be applied to most semi-crystalline polymers.
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density
Mean density
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Correlation function As the system only
shows contrast in the z direction that’s all we need to be concerned with.
We need to perform a Fourier transform on the scattering data to obtain the correlation function.
( ) ∫∞
=0
2. )(41 dqqIqek
zK ziq π
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Symmetry As the structure is
periodic in the z direction we can fold it in half and simplify the maths.
This cosine transformation relies only on the fact that the structure is periodic.
( )
( )∫
∫∞
∞
∞−
=
=
0
2
2.
)(4.cos2
)(41
dqqIqzqk
dqqIqek
zK ziq
π
π
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Correlation function 1
( )eaeccB ρρφ −=− 2
( )( )21 eaecccQ ρρφφ −−=
40
ρ K
dac dc
dc
dac
z
-B
ρec is the crystalline electron density ρea is the amorphous electron density φc is the volume degree of crystallinity
Q has a maximum at 50% crystallinity, this means that you can’t tell the difference between 40 and 60%. Similarly you cannot distinguish between the amorphous and crystalline d. However DSC or WAXS should give you a clue.
Q
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Correlation function 2
41
ρ K
dc
Average dac
z
-B
ρ
Q
K
Average dc
Average dac
z
-B
Q
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Correlation Function 3
( )2
2 eaecacO
dzdK ρρ −−=
42
ρ K
Average dc
Average dac
z
-B
Q
Slope gives Oac the “specific internal surface”. Area per unit volume of the interface separating
crystalline and amorphous regions.
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Block Copolymers Chemically linked
polymers Polymers phase separate Linked so separation is
limited Microphase separated
Domains are few nanometers in size
Heat them up and they mix ODT If Mn is not too big
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AB diblock
ABA triiblock
ABC triblock
(AB)n star
ABn comb
(AB)n multiblock
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AB-Diblock copolymer phases
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Matsen et al Macromolecules 1994,1996 Khandpur et al Macromolecules 1995
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Lamellar
46
x
y z
shear
100
101
102
103
0
0.05
0.1
0.15
0.2
0 0.05 0.1 0.15 0.2 0.25
Iq2
q / Å -1
1
2 3 4
Schultz et al Macromolecules 1995
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Hexagonal
47 Schultz et al Macromolecules 1995
x
z
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BCC Cubic
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0-0.13 0.13q∇ / Å-1
qv / Å-1
0
0.13
-0.131 2
106
107
108
109
1010
1011
0 0.05 0.1 0.15 0.2
q/Å -1
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Ia3d “gyroid” Beware the “eye of faith”
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1.0
10.0
100.0
1000.0
10000.0
0.00 0.02 0.04 0.06 0.08 0.10 0.12 0.140.0
q/ Å-1
211
220
420
332
422611 543
0
1
2
3
0
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Order to Disorder Not always this clear Glassy: eg PS tends to
produce broad peaks that change slowly.
Why only one peak Interface: sine wave
50
0.00
100
200
300
400 0
400000
800000
1200000
0 0.05 0.1 0.15 0.2
DisorderedLorentzian
I(q) = Im / (1 + ¦I m(q-qm)2/σ2)inte
nsity
/ ar
bitra
ry u
nits
q/Å-1
OrderedGaussian
I(q) =Im exp(-(q-qm)2/σ2)2
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ABC phases ABC triblock. Stamp collecting to some
degree But good for volume of
papers.
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Reference Books Leroy E. Alexander: X-ray Diffraction Methods in Polymer
Science Otto Glatter and Kratky: Small Angle X-ray Scattering H.P. Krug and L.E. Alexander X-ray Diffraction Procedures
All of these are old and out of print. But any good library will stock at least two of the three.
I have yet to find a good new book ( one still in print) on the subject. Methods of X-ray and Neutron Scattering in Polymer Science
(Topics in Polymer Science S.) by Ryong-Joon Roe is OK
Light Scattering: From Dover publications old but still available:
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