ncku-prl polym. res. lab. nation cheng kung univ. 奈米化工與高分子材料 2003/11/8 報告人...
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
奈米化工與高分子材料• 2003/11/8
• 報告人 : 吳逸謨
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
1950 - 原子彈
1960~70 - 太空登月
原子筆, 原子襪, 原子褲, 原子能 , etc
太空被,太空衣,太空鞋, 太空纖維 etc
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
2000 – 奈米奈米水,奈米電鍋,奈米冰箱,奈米冷氣機,奈米 SARS 口罩,奈米塗料,奈米潤滑油,
奈米保養化妝品,奈米 - 米, etc…
奈米中藥,奈米顆粒,奈米管, etc…
奈米生化,奈米醫學, etc
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
奈米福碳公司 -2003 奈米科技論壇
Dr. Alan MacDirmid – (2002 Chemistry Nobel-Prize Laureate
for conducting polymers)He said Taiwan could someday become a
奈米島
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Analyses of Crystal Forms in Syndiotactic Analyses of Crystal Forms in Syndiotactic Polystyrene Intercalated with Layered Nano-Polystyrene Intercalated with Layered Nano-
Clays Clays
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
高分子 – 超奈米
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
IntroductionIntroduction
Over the last decade, polymer-layered silicate nanocomposites (PLSNs) with nano-scale reinforcements have been the focus of extensive study.
Incorporation of the organo-layered silicates into the polymers results in enhanced mechanical strength, improved thermal stability and flame retardancy, increased solvent resistance and barrier properties, higher ionic conductivity, reduced thermal expansion coefficient, and controlled biodegradability.
Dispersivity of the clay particles plays the pivotal role to influence the ultimate properties of the PLSNs. For a typical polymer, the key factors of the clay dispersion are the method of synthesis, structure of the intercalant (generally onium surfactants) and concentration of clay.
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
sPS is a semi-crystalline polymer exhibiting complex polymorphic behavior with multiple melting characteristics.
The main objectives of the present investigation are:
(1) to elucidate the multiple melting characteristics of sPS/clay nano-composites vs. conventional micro-composites by comprehensive thermal and X-ray diffraction evidence;
(2) (2) to investigate the effect of Tc on the relative ratio of the polym
orphic sPS crystals in presence of pristine and organo-clays; and
(3) (3) to depict the spherulitic morphology of sPS as affected by incorporation of different kind of clays.
ObjectivesObjectives
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
ExperimentalExperimental
Syndiotactic polystyrene (sPS)Syndiotactic polystyrene (sPS) (Idemitsu Petrochemical Co., Ltd., Japan)Mw =210 kg/mol
CloisiteCloisite®® Na+ (Na-MMT) Na+ (Na-MMT) (Southern Clay Product Inc., USA)CEC = 92.6meq/100g clay (d001 = 11.7Å), sp.gr. = 2.86
Cloisite® 10A (Clay-10A) (Southern Clay Product Inc., USA)
Modifier : 2MBHT(dimethyl, benzyl, hydrogenatedtallow, quaternary ammonium salt) Modifier conc. = 125meq/100g clay (d001 = 19.2Å), sp.gr. = 1.90
HT is Hydrogenated Tallow (~65% C18; ~30% C16; ~5% C14)
• 1,1,2,2-tetrachloroethane (TCE) (Showa Chemicals Inc., Japan) ( = 19.8 MPa½, b.p. 145oC, 1.6 g/cc)
N
CH3
CH3
HT
H2C+
Materials UsedMaterials Used
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Experimental (contd.)Experimental (contd.)
Differential Scanning Calorimetry (DSC): DSC-7 (Perkin-Elmer) attached with cooling
accessory Intracooler 2 (Perkin-Elmer).
Wide-Angle X-ray Diffraction (WAXD): Shimadzu XRD-6000 with Cu Kα radiation (30
kV and 40 mA) and a wavelength of 1.542 Å. The scanning 2θ angle ranged between 2° a
nd 30° with a step scanning rate of 2°/min.
• Transmission Electron Microscopy (TEM): JEOL JEM 1200-EX TEM. Epoxy-mounted
samples were ultra-microtomed with a diamond knife on a Leica Ultracut R microtme (n
ominal thickness of 50~70 nm). The sections were transferred from water to carbon coate
d 200-mesh Cu grids.
• Polarized Optical Microscopy (POM): Nikon Optiphot-2, POL equipped with UFX-DX a
utomatic exposure. Linkam THMS-600 with TP-92 temperature programmer was used a
s microscopic heating stage.
InstrumentationInstrumentation
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Solvent used - 1,1,2,2-tetrachloroethane (TCE)
Solution was stirred for 1h at 130oC to dissolve sPS (2-wt%)
Clay (vacuum dried at 80oC for 6h) was added into the polymer solution
Clay suspension was vigorously stirred at 60oC in oil bath for 24h
The resultant solution was cast as thin film at 60 oC for 24h
Residual solvent was removed by vacuum drying at 110 oC for 7 days
Cast film was grounded to fine powder
Powdered samples were further dried at 110 oC for 3 days for complete
removal of solvent
Solution Intercalation of sPSSolution Intercalation of sPS
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Composition
Tg (C)
Tcc (C)a
Tm (C)
Hm (J/g)b
sPS (neat)
89.6
154.0
269.7
28.8
sPS + Na-MMT (5%)
90.4 152.0 268.3 26.6
sPS + C10A (5%) 86.3 147.7 267.7 19.6
sPS + C10A (10%)
58.6 137.3 244.3 14.0
All the samples were melted at 290 C for 10 min to remove all the crystalline forms and then quenched by liquid nitrogen to obtain the amorphous state (DSC scan rate = 20°C/min)
a Tcc: peak temperature of cold crystallization. b Hm: melting enthalpy.
Thermal transitions of sPS/clay-HybridsThermal transitions of sPS/clay-Hybrids
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
4 6 8 10
2
Inte
nsit
y (a
.u.)
(a) Na-M MT(b) C10A(c) s-PS (neat)(d) s-PS + Na-MMT(5% )(e) s-PS + C10A(5% )(f) s-PS + C10A(10% )
(a)
(b)
(c)
(d)
(e)
(f)
Dispersion of layered silicates in sPS Dispersion of layered silicates in sPS No peak in the relevant range (2 = 3 ~ 8) for
neat sPS. A broad peak around 2 9.2 indicates the existence of -crystal form in this
TCE-cast sPS matrix (Trace c)
Peak at 2 6.1 in sPS/Na-MMT (5-wt%)
composite indicates the presence of clay-induced
-crystals of TCE-cast sPS overlapped by the d001
peak of the unintercalated Na-MMT (Trace d)
No significant XRD peak in the region of 2 =
3-5 sPS/ C10A (5-wt%) nanocomposite,
indicating successful intercalation of sPS into the
silicate layers (Trace e)
Small and broad peak at 2 6 for C10A (10-
wt%) nanocomposite suggests the presence of -
crystal of sPS in the cast sample, still no peak in
the region of 2 = 3-5 (Trace f)
d001 1.17 nm
d001 1.88 nm
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
TEM images of sPS/clay-HybridsTEM images of sPS/clay-Hybrids
sPS/Na-MMT(5-wt%)microcomposite `
sPS/C10A (5-wt%)nanocomposite
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
240 260 280 300
T emp (oC)
Hea
t fl
ow (
End
o) (
offs
et)
(a)
(b)
(c)
(d)
Tmax = 290 oC, tm ax = 10 m in (a) s-PS (neat)(b) Na-MMT(5% )(c) C10A(5% )(d) C10A(10%)
P1P2
P3
P4
0 10 20 30
2(degree)
Inte
nsit
y (a
.u.)
Tmax = 290 oC, tm ax = 10 m in
(a)
(b)
(c)
(d)
(a) s-PS (neat)(b) Na-MMT(5% )(c) C10A(5% )(d) C10A(10%)
Polymorphism in sPS/clay nanocomposites Polymorphism in sPS/clay nanocomposites melt crystallized at 240melt crystallized at 240ooCC
tc = 30 min
DSCDSC XRDXRD
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Characterization sPS/clay Nanocomposites Characterization sPS/clay Nanocomposites Melt crystallized at 235Melt crystallized at 235ooCC
240 260 280 300
T emp (oC)
Hea
t fl
ow (
End
o) (
offs
et)
(a)
(b)
(c)
Tmax = 290 oC, tm ax = 10 m in (a) s-PS (neat)(b) Na-MMT(5% )(c) C10A(5% )
P1
P2P3
P4
0 10 20 30
2(degree)
Inte
nsit
y (a
.u.)
Tmax = 290 oC, tm ax = 10 m in
(a)
(b)
(c)
(a) s-PS (neat)(b) Na-MMT(5% )(c) C10A(5% )
tc = 30 min
DSCDSC XRDXRD
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Crystal forms in sPS/clay nanocomposites Crystal forms in sPS/clay nanocomposites melt crystallized at 245melt crystallized at 245ooCC
260 280 300
T emp (oC)
Hea
t fl
ow (
End
o) (
offs
et)
(a)
(b)
(c)
Tmax = 290 oC, tm ax = 10 m in (a) s-PS (neat)(b) Na-MMT(5% )(c) C10A(5% )
P1P2
P3
0 10 20 30
2(degree)
Inte
nsit
y (a
.u.)
Tmax = 290 oC, tm ax = 10 m in
(a)
(b)
(c)
(a) s-PS (neat)(b) Na-MMT(5% )(c) C10A(5% )
tc = 60 min
DSCDSC XRDXRD
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Melt crystallization behavior of Melt crystallization behavior of sPS/clay nanocomposites at 250sPS/clay nanocomposites at 250ooC C
250 260 270 280 290 300
T emp (oC)
Hea
t fl
ow (
End
o) (
offs
et)
(a)
(b)
(c)
Tmax = 290 oC, tm ax = 10 m in (a) s-PS (neat)(b) Na-MMT(5% )(c) C10A(5% )
P1 P2 / (=P2+P3)
0 10 20 30
2(degree)
Inte
nsit
y (a
.u.)
Tmax = 290 oC, tm ax = 10 m in
(a)
(b)
(c)
(a) s-PS (neat)(b) Na-MMT(5% )(c) C10A(5% )
tc = 60 min
DSCDSC XRDXRD
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
800X 10μm 800X 10μm800X 10μm
sPS/Na-MMT(5-wt%)microcomposite
sPS/C10A (5-wt%)
nanocomposite
sPS (neat)
Effect of layered silicates in Effect of layered silicates in spherulitic dimension of sPSspherulitic dimension of sPS
All the samples were melt crystallized at 240C for 30 min (Tmax = 290C, tmax = 10 min)
Average maximum diameter of spherulites
~40 m ~25 m ~15 m
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
ConclusionsConclusionsThe sPS molecules were successfully intercalated into the organo-clay galleries. TEM analysis revealed a mixed morphology of an intercalated/exfoliated structure in the sPS/clay nanocomposites.
A significant alteration of the polymorphism in the sPS matrix was observed by the inclusion of different nano-layered clays. The temperature regime of the -crystal formation in sPS was found to expand considerably and the organo-clays favored the formation of -phase in addition to the -phase, even at high Tc of 250C.
Pristine clay (Na-MMT) was dispersed in the sPS matrix more coarsely with aggregated structures, behaved differently in its nucleating action and only larger spherulites of -form of sPS crystals were induced to grow at all the available Tc’s.
the clay dispersibility in the sPS matrix is assumed to play a pivotal role in altering the crystalline structures. The inclusion of the organo-clay with nano-scale dispersibility promoted the rapid formation of -forms, which developed spherulites of smaller dimension as compared the -forms. However, the proportion of -phase was decreased with higher loading (> 5-wt%) of organo-clay due to poor dispersion.
The peak 2 (P2) for melt-crystallized sPS in DSC analysis was further confirmed to correspond to the -phase, as it was almost absent in the sPS/Na-MMT composites.
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Polymorphic Crystal Forms and Melting Behavior of PoPolymorphic Crystal Forms and Melting Behavior of Poly(butylene adipate)ly(butylene adipate)
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
IntroductionIntroduction
• Polymorphic structure of Poly(butylene adipate)(PBA) was reported by Minke and Blackwell in 1979. They have identified two types of polymorphic crystals exhibited in crystalline PBA samples. -from crystal was characterized as a monoclinic unit cell, and -form was packed as an orthorhombicunit cell.
• For PBA, in the previous paper, it was indicated that the formation of - and -form crystal was dependent on the melt crystallization temperatures.
• In this study, we attempted to explore the relationships between the polymorphic crystals and the multiple melting peaks.
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
ExperimentalExperimental
Material UsedMaterial UsedPoly(butylene adipate)(PBA) Poly(butylene adipate)(PBA) (Aldrich Chem. Co.)
Mw=12,200 and Mn=9,540 with a polydispersity of 1.28.
• Purification: PBA was reprecipitated from chloroform into cold methanol (ca. –10oC). And then, the sample was dried in the vacuum oven at 40oC for 7 days to remove the solvent.
n
(CH2)4 O C
O
(CH2)4 C
O
O
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Complex Melting Peaks and Characterization of Complex Melting Peaks and Characterization of Crystal forms in PBACrystal forms in PBA
WAXD DSC
1 5 2 0 2 5 3 02d eg ree
Inte
nsi
ty(o
ffse
t)
2 5 oC
2 9 oC
2 9 .5 oC
3 0 oC
3 5 oC
T c=
3 0 4 0 5 0 6 0 7 0T em p era tu re(oC )
En
dot
her
mic
hea
t fl
ow (
offs
et s
cale
)2 8 oC
3 1 oC
3 0 .5 oC
3 0 oC
2 9 .5 oC
2 9 oC
2 8 .5 oC
P 1
P 1 P 3
P 3
P 2
P 2
P 4
P 4
T c=
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
PBA isothermally melt-crystallized at 29.5 PBA isothermally melt-crystallized at 29.5 ooC for vaC for various timesrious times
3 0 4 0 5 0 6 0 7 0T em p era tu re(oC )
En
dot
her
mic
hea
t fl
ow (
offs
et s
cale
)
0 .5
0 .7
6 0
3 0
2 0
1 0
1 .5
1 .0
P 1
P 1
P 1
P 1
P 3
P 3
P 3
P 3P 4
P 4
P 4
P 2 t c(m in )=
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
PBA (TPBA (Tcc= 29.5= 29.5ooC) and scanned at various ratesC) and scanned at various rates
(tc=30min)3 0 4 0 5 0 6 0 7 0
T em p era tu re(oC )
En
dot
her
mic
hea
t fl
ow (
offs
et s
cale
)
2 .5
5
1 0
2 0
P 1
P 1
P 1
P 2P 4
P 4
P 2 + P 3
P 2 + P 3 + P 4
S ca n ra te (oC /m in )
P 3
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Dynamically cooled PBA at various rates (TDynamically cooled PBA at various rates (Tcc=29.5=29.5oo
C)C)DSC WAXD
2 0 4 0 6 0T em p era tu re(oC )
En
dot
her
mic
hea
t fl
ow (
offs
et s
cale
)
c oo lin g ra te= (O C /m in )
0 .5
1 .0
2 .5
10
20
40
P 1P 2 P 3
P 4
P 1
P 1
P 1
P 3
P 3
P 3
P 2
P 2
P 4
P 4
1 5 2 0 2 5 3 02d eg ree
Inte
nsi
ty(o
ffse
t)
1
1 0
2 0
co o lin g ra te= (oC /m in )
![Page 28: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/28.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
PBA sample melt-crystallized at 28PBA sample melt-crystallized at 28ooC was melC was mel
ted to 58ted to 58ooC and then quenched to 31C and then quenched to 31ooCC
3 0 4 0 5 0 6 0 7 0T em p era tu re(oC )
2 4
2 6
2 8
En
dot
her
mic
hea
t fl
ow(W
/g)
P 1P 3
1 5 2 0 2 5 3 0
2d eg ree
-1 0 0 0
0
1 0 0 0
2 0 0 0
3 0 0 0
Inte
nsi
ty(c
oun
ts)
![Page 29: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/29.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
PBA (TPBA (Tcc=31=31ooC) melted to different TC) melted to different Tmm and then and then
quenched to 28quenched to 28ooCC
3 0 4 0 5 0 6 0 7 0T em p era tu re(oC )
En
dot
her
mic
hea
t fl
ow (
Off
set
Sca
le)
P 1P 2
P 3
P 4
P 1
P 2
P 3
P 4
(3 )
(1 )
(2 )
T m = 6 5 oC
6 0 oC
5 5 oC
1 5 2 0 2 5 3 02d egree
Inte
nsi
ty(o
ffse
t) (1 )
(2 )
(3 )
T m = 6 5 oC
T m = 6 0 oC
T m = 5 5 oC
![Page 30: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/30.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Comparison of the melting behaviors of Comparison of the melting behaviors of -for-form crystal melted to various temperaturesm crystal melted to various temperatures
4 0 5 0 6 0 7 0T em p era tu re(oC )
1 0
1 1
1 2
1 3
En
dot
her
mic
Hea
t f
low
(W/g
)
4 8 oC
5 0 oC
5 0 6 0 7 0T em p era tu re(oC )
En
dot
her
mic
hea
t fl
ow(o
ffse
t sc
ale)
6 3 .7 J /g
H f = 5 6 .2 J /g
4 8 oC (2 h r)
5 0 oC (2 h r)
3 9 .6 J /g4 8 oC (0 .5 m in )
T a =
![Page 31: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/31.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
X-ray diffractograms for PBA (TX-ray diffractograms for PBA (Tcc=31=31ooC) melteC) melte
d and annealed to various temperaturesd and annealed to various temperatures
1 5 2 0 2 5 3 02d eg ree
Inte
nsi
ty(o
ffse
t)
5 0 oC
4 8 oC
T a =
![Page 32: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/32.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Comparison of the melting behaviors of Comparison of the melting behaviors of -for-for
m crystal melted to various temperaturem crystal melted to various temperature
3 0 4 0 5 0 6 0 7 0T em p era tu re(oC )
En
dot
her
mic
hea
t fl
ow
5 1 oC
5 3 oC
5 0 6 0 7 0T em p era tu re(oC )
En
dot
her
mic
hea
t fl
ow(o
ffse
t sc
ale)
6 5 .6 J /g
H f = 5 1 .3 J /g
5 3 oC (2 h r)
5 1 oC (2 h r)
4 7 .4 J /g 5 1 oC (t= 0 .5 m in )
T a =
![Page 33: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/33.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
X-ray diffractograms for PBA (TX-ray diffractograms for PBA (Tcc=28=28ooC) melteC) melte
d to various temperaturesd to various temperatures and annealedand annealed
1 5 2 0 2 5 3 02d eg ree
Inte
nsi
ty(o
ffse
t)
5 3 oC
5 1 oC
T a =
![Page 34: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/34.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
ConclusionConclusion
• The formation of -form crystal can be favored in the crystallization of PBA under these two conditions: (1) slow cooling from the molten state, (2) melt crystallization at high temperatures.
• The -form crystal can be formed under these two conditions: (1) melt crystallization at lower temperatures, (2) at fast cooling rates from the melt.
• The -form crystal which was heated to melt produced two endothermic peaks (P1 and P3). P2 and P4 appeared when -from crystal was melted. As - and -form crystals coexisted, the melting behaviors for the crystals showed four peaks (P1-P4) on the DSC trace.
![Page 35: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/35.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Miscibility in Ternary Blends:
PVAc/PVPh/PMMA
Part 1
![Page 36: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/36.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
PVPh Mw = 22,000 g/mol Tg = 148.3oC
Polysciences, Inc.
PMMA Mw=100,000 g/mol (GPC) Tg = 87.1oC
Polysciences, Inc.
PVAc Mw = 260,000 g/mol (GPC) Tg = 35.4oC
Scientific Polymer Products, Inc.
THF b.p=66oCMEK b.p=79.6oC Cyclohexanone b.p=156.7oC
OH
C C( ) n
n)( CCH2
CH3
C O
O
3CHCH2 CH( )
OCOCH3
n
Materials
Experimental Part
Solvent
![Page 37: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/37.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Experimental Part(Contd.)
Sample Preparation
The blend samples were prepared by solvent-casting (THF,MEK and cyclohexanone).When completely mixing that The blend samples were cast at 45oC for 24 hr. Samples were subjected to vacuum degassing at 80oC for one week
Apparatus
Optical light microscope (Nikon Optiphot-2, POL)Different scanning calorimeter (Perkin-Elmer DSC-7)Scanning electron microscope (SEM, JEOL JXA840)
![Page 38: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/38.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Results and Discussion
POM for ternary PVAc/PVPh/PMMA phase diagram :
PVAc0 10 20 30 40 50 60 70 80 90 100
PVPh
0
10
20
30
40
50
60
70
80
90
100
PMMA
0
10
20
30
40
50
60
70
80
90
100
PVAc0 10 20 30 40 50 60 70 80 90 100
PVPh
0
10
20
30
40
50
60
70
80
90
100
PMMA
0
10
20
30
40
50
60
70
80
90
100
PVAc0 10 20 30 40 50 60 70 80 90 100
PVPh
0
10
20
30
40
50
60
70
80
90
100
PMMA
0
10
20
30
40
50
60
70
80
90
100
THF cyclohexanone MEK
![Page 39: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/39.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
PVAc0 10 20 30 40 50 60 70 80 90 100
PVPh
0
10
20
30
40
50
60
70
80
90
100
PMMA
0
10
20
30
40
50
60
70
80
90
100
POM for ternary PVAc/PVPh/PMMA MEK casting phase diagram :
Results and Discussion (Contd.)
![Page 40: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/40.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
PVAc0 10 20 30 40 50 60 70 80 90 100
PVPh
0
10
20
30
40
50
60
70
80
90
100
PMMA
0
10
20
30
40
50
60
70
80
90
100
>300
>300
>300>300 >300
>300 >300
295 286 288
272259
>300
>300
Results and Discussion (Contd.)
LCST Behavior :
![Page 41: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/41.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
DSC thermograms for PVAc/PVPh/PMMA ternary blends heated at 20oC/min
0 4 0 8 0 1 2 0 1 6 0
T em p era tu re ( oC )
End
othe
rmic
hea
t flo
w (
offs
et s
cale
)
P V A c/P V P h /P M M A = x /y /z5 /7 0 /2 5
2 5 /7 0 /5
1 0 /6 0 /3 0
8 0 /1 0 /1 0
9 0 /5 /5
3 0 /6 0 /1 0
4 0 /5 0 /1 0
3 5 /5 0 /1 5
0 4 0 8 0 1 2 0 1 6 0
T e m p e ra tu re ( oC )
Eno
ther
mic
hea
t flo
w (
offs
et s
cale
)
P V A c/P V P h /P M M A = 1 /x /1
5 /9 0 /5
1 0 /8 0 /1 0
1 5 /7 0 /1 5
2 0 /6 0 /2 0
2 5 /5 0 /2 5
3 0 /4 0 /3 0
4 5 /1 0 /4 5
5 0 /0 /5 0
Results and Discussion(Contd.)
![Page 42: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/42.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
DSC traces of the physical-aged PVAc/PVPh/PMMA blends (ageas at 70oC for different time)
0 40 80 120 160
T e m p e ra tu re ( oC )
End
othe
rmic
hea
t flo
w (
offs
et s
cale
)
P V A c/P V P h /P M M A T a= 7 0 oC 2 4 h r
1 0 /6 0 /3 0
2 0 /6 0 /2 0
3 0 /6 0 /1 0
3 5 /5 0 /1 5
4 0 /5 0 /1 0
2 5 /5 0 /2 5
DSC traces of the physical-aged PVAc/PVPh/PMMA blends (ageas at 70oC for various composition)
0 4 0 8 0 1 2 0 1 6 0
T e m p e ra tu re ( oC )
End
othe
rmic
hea
t flo
w (
offs
et s
cale
)
P V A c/P V P h /P M M A = 2 0 /6 0 /2 0 T a= 7 0 oC
2 4 h r
1 6 h r
8 h r
0 h r
Results and Discussion(Contd.)
![Page 43: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/43.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Results and Discussion(Contd.)
PVAc0 10 20 30 40 50 60 70 80 90 100
PVPh
0
10
20
30
40
50
60
70
80
90
100
PMMA
0
10
20
30
40
50
60
70
80
90
100
91.3
117
113
102109 97
99.2 86.3
102 82.5 75.8 75
40
40
Tg value for ternary PVAc/PVPh/PMMA phase diagram :
![Page 44: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/44.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
THE observed Tg data by DSC vs the Tg Values calculate by Fox equation
giii
g TWT //1
This finding might imply that interactions among the components are weak.
Results and Discussion(Contd.)
0 4 0 8 0 1 2 0 1 6 0
T g ,c a l (oC )
0
4 0
8 0
1 2 0
1 6 0
Tg ,o
bs (o C
)
P V A c/P V P h /P M M AT ern a ry B len d S ystem
![Page 45: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/45.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.SEM micrographs of PVAc/PVPh/PMMA ternary blends of virious compositions.
5/90/5
8000X
10/80/10
6000X
15/70/15
5000X
20/60/20
5000X
10/60/30
5000X
30/60/10
8000X
40/50/10
8000X
80/10/10
1800X
35/50/15
5000X
![Page 46: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/46.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.SEM micrographs of PVAc/PVPh/PMMA ternary blends of virious compositions.
5/70/25
5000X
25/70/5
5000X
90/5/5
5000X
![Page 47: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/47.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
LPVAc/PVPh/LPMMA
Part 2
![Page 48: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/48.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
PVPh Mw = 22,000 g/mol Tg = 148.3oC
Polysciences, Inc.
LPMMA Mw=15,000 g/mol (GPC) Tg = 75.8oC
Aldrich Chemical Company, Inc.
LPVAc Mw = 12,800 g/mol (GPC) Tg = 31.3oC
Aldrich Chemical Company, Inc.
solvent
MEK b.p=79.6oC
OH
C C( ) n
n)( CCH2
CH3
C O
O
3CH
CH2 CH( )
OCOCH3
n
Materials
Experimental Part
![Page 49: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/49.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Results and Discussion
LPVAc0 10 20 30 40 50 60 70 80 90 100
PVPh
0
10
20
30
40
50
60
70
80
90
100
LPMMA
0
10
20
30
40
50
60
70
80
90
100
POM for ternary LPVAc/PVPh/LPMMA phase diagram :
![Page 50: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/50.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
DSC thermograms for LPVAc/PVPh/LPMMA ternary blends heated at 20oC/min
0 4 0 8 0 1 2 0 1 6 0
T e m p e ra tu re ( oC )
End
othe
rmic
hea
t flo
w (
offs
et s
cale
)
L P V A c/P V P h /L P M M A = 1 /x /1
1 0 /8 0 /1 0
1 5 /7 0 /1 5
2 0 /6 0 /2 0
2 5 /5 0 /2 5
3 0 /4 0 /3 0
4 5 /1 0 /4 5
5 0 /0 /5 0
5 /9 0 /5
3 5 /3 0 /3 54 0 /2 0 /4 0
0 4 0 8 0 1 2 0 1 6 0
T e m p e ra tu re ( oC )
End
othe
rmic
hea
t flo
w (
offs
et s
cale
)
L P V A c/P V P h /L P M M A = x /1 /1
0 /5 0 /5 0
2 0 /4 0 /4 0
4 0 /3 0 /3 0
6 0 /2 0 /2 0
8 0 /1 0 /1 0
Results and Discussion(Contd.)
![Page 51: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/51.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
0 4 0 8 0 1 2 0 1 6 0
T e m p e ra tu re ( oC )
End
othe
rmic
hea
t flo
w (
offs
et s
cale
)
L P V A c/P V P h /L P M M A = 1 /1 /x
1 0 /1 0 /8 0
2 0 /2 0 /6 0
3 0 /3 0 /4 0
4 0 /4 0 /2 0
5 0 /5 0 /0
0 4 0 8 0 1 2 0 1 6 0
T e m p e ra tu re ( oC )
End
othe
rmic
hea
t flo
w (
offs
et s
cale
)
L P V A c/P V P h /L P M M A = x /y /z
1 0 /5 0 /4 0
1 0 /3 0 /6 0
4 0 /5 0 /1 0
6 0 /3 0 /1 0
5 /7 0 /2 5
2 5 /7 0 /5
Results and Discussion(Contd.)
DSC thermograms for LPVAc/PVPh/LPMMA ternary blends heated at 20oC/min
![Page 52: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/52.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
LPVAc0 10 20 30 40 50 60 70 80 90 100
PVPh
0
10
20
30
40
50
60
70
80
90
100
LPMMA
0
10
20
30
40
50
60
70
80
90
100
109
101
89.2
81.3
70.8
116
97.9 59.165.893.7
60.872
59 57.5 53.7 46.6
36.2
35
71.6
59
80
105 87.5
Results and Discussion(Contd.)
Tg value for ternary LPVAc/PVPh/LPMMA phase diagram :
![Page 53: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/53.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
THE observed Tg data by DSC vs the Tg Values calculate by Fox equation
giii
g TWT //1
This finding might imply that interactions among the components are weak.
Results and Discussion(Contd.)
0 4 0 8 0 1 2 0 1 6 0
T g ,c a l (oC )
0
4 0
8 0
1 2 0
1 6 0
Tg,
obs
(o C)
P V A c/P V P h /P M M AT ern a ry B len d S y stem
![Page 54: NCKU-PRL Polym. Res. Lab. Nation Cheng Kung Univ. 奈米化工與高分子材料 2003/11/8 報告人 : 吳逸謨](https://reader037.vdocuments.site/reader037/viewer/2022102606/56649cba5503460f9498248b/html5/thumbnails/54.jpg)
NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
60
80
100
120
140
0
1020
3040
5060
40
50
6070
8090
100
Tem
pera
ture
(T
g,on
set)
PVAc
PVPh
Results and Discussion(Contd.)
Effect of Mw on Tg values. ( HMW PVAc/PVPh/PMMA )
(。 LMW LPVAc/PVPh/LPMMA )
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
LPVAc/PVPh/LPMMA
Cyclohexanone solvent and co-precipitated
Part 3
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Experimental Part
Sample Preparation
The blend samples were prepared by solvent-casting (cyclohexanone).When completely mixing that the blend samples were cast at 50oC and 90oC for 24 hr. Samples were subjected to vacuum degassing at 80oC for one week
Apparatus
Optical light microscope (Nikon Optiphot-2, POL)
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
POM for ternary LPVAc/PVPh/LPMMA cyclohexanone casting at 50oC sample :
LPVAc0 10 20 30 40 50 60 70 80 90 100
PVPh
0
10
20
30
40
50
60
70
80
90
100
LPMMA
0
10
20
30
40
50
60
70
80
90
100
Results and Discussion(Contd.)
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Results and Discussion(Contd.)
POM for ternary LPVAc/PVPh/LPMMA cyclohexanone casting at 90oC sample :
LPVAc0 10 20 30 40 50 60 70 80 90 100
PVPh
0
10
20
30
40
50
60
70
80
90
100
LPMMA
0
10
20
30
40
50
60
70
80
90
100
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
DSC thermograms for LPVAc/PVPh/LPMMA ternary blends heated at 20oC/min
LPVAc0 10 20 30 40 50 60 70 80 90 100
PVPh
0
10
20
30
40
50
60
70
80
90
100
LPMMA
0
10
20
30
40
50
60
70
80
90
100
0 4 0 8 0 1 2 0 1 6 0
T e m p e ra tu re ( oC )E
ndot
herm
ic h
eat f
low
(of
fset
sca
le )
L P V A c/P V P h /L P M M A c o -p re c ip ita ted
4 5 /1 0 /4 5
5 0 /0 /5 0
Results and Discussion
DSC for ternary LPVAc/PVPh/LPMMA phase diagram.
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Conclusion
In this ternary blend of PVAc/PVPh/PMMA where PVPh is miscible with each of the other component, more than 50wt% PVPh was required to cause miscibility between PVAc and PMMA.
Phase boundary of LPVAc/PVPh/LPMMA ternary blend investigated by DSC shows that miscibility window was increased obviously. Furthermore, the Tg value of LPVAc/PVPh/LPMMA was less than PVAc/PVPh/PMMA system.
Blend prepared by cyclohexanone solvent casting and co-precipitated (MEK-hexane) were found to be immiscible.
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Chiang Chih Pei
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
System
1. The blend of Poly(p-vinylphenol) (PVPh) /
Poly(1,6-hexamethylene adipate)(PHA)
2. The blend of Poly(p-vinylphenol) (PVPh) / Poly(ethylene azelate)(PEAz)
3. The blend of Poly(p-vinylphenol) (PVPh) / Poly(hexamethylene sebacate)(PHS)
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
2. Poly(1,6-hexamethylene adipate)(PHA)
Tm:55~65°C Mn: 3,800 (by GPC Mw: 13000) Aldrich Inc.
CH 2 O 2CHO C C
O O
n6 4
1. Poly(p-vinylphenol) (PVPh)
Tg:148°C Mw:22,000 Polysciences Inc.
CH 2 CH
OH
n
Part.1 The blend of PVPh/PHA
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Methods
Sample preparation
All polymers blends via solution-casting. Solutions were prepared in tetrahydrofuran (THF) at a concentration of 4 g polymer/ 100 mL solvent to obtain clear solution mixtures at room temperature; then mixtures were cast at 45°C onto hot stage for 24hr. The solution-cast films were dried for a week in 40°C vacuum oven.
Apparatus
Polarizing optical microscope, POM
Differential scanning calorimeter, DSC
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
DSC traces of the PVPh/PHA blends
-40 0 40 80 120 160 200
T em p e ra tu re ( oC )
End
othe
rmic
hea
t flo
w (
offs
et s
cale
)
1 0 0 /0
9 0 /1 0
7 0 /3 0
5 0 /5 0
3 0 /7 0
P V P h /P H A(2nd run)
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
PVPh/PHA=0/100 PVPh/PHA=10/90
PVPh/PHA=30/70
POM graphs of PVPh/PHA blends after melt-crystallized at 30oC
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
PVPh/PHA=0/100 PVPh/PHA=10/90
PVPh/PHA=30/70
POM graphs of PVPh/PHA blends after melt-crystallized at 35oC
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
PVPh/PHA=0/100 PVPh/PHA=10/90
PVPh/PHA=30/70
POM graphs of PVPh/PHA blends after melt-crystallized at 40oC
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
PVPh/PHA=0/100 PVPh/PHA=10/90
PVPh/PHA=30/70
POM graphs of PVPh/PHA blends after melt-crystallized at 45oC
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Part.2 The blend of PVPh/PEAz
2. Poly(ethylene azelate)(PEAz)
Tg:-50 °C Tm:55°C Mw:50,000 SP2 Inc.
1. Poly(p-vinylphenol) (PVPh)
Tg:148°C Mw:22,000 Polysciences Inc.
CH 2 CH
OH
n
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Methods
Sample preparation
All polymers blends via solution-casting. Solutions were prepared in tetrahydrofuran (THF) at a concentration of 4 g polymer/ 100 mL solvent to obtain clear solution mixtures at room temperature; then mixtures were cast at 45°C onto hot stage for 24hr. The solution-cast films were dried for a week in 40°C vacuum oven.
Apparatus
Polarizing optical microscope, POM
Differential scanning calorimeter, DSC
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Thermodynamic reversibility
-2oC/min
PVPh/PEAz=90/10
-2oC/min
PVPh/PEAz=80/20
-2oC/min
PVPh/PEAz=70/30
heat to above UCST cool to r.t.
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Check the UCST behavior
+2oC/min +2oC/min
(B) after melt-blending and casting
(A) by melt-blending
as -cast transiting heat to above UCST
Using melt-blending to prepare PVPh/PEAz=70/30 binary blend sample, then dissolving in THF (4wt%); and casting at 45°C onto hot stage for 24hr. The solution-cast films were dried for 3days in 40°C vacuum oven.
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Clarity point of the PVPh/PEAz blends
one phase
one phase
phase separation
UCST
0 2 0 4 0 60 80 100
P V P h w t(% ) in b in a ry m ix tu res
0
40
80
120
160
200C
lari
ty p
oin
t (o C
)
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
DSC traces of the PVPh/PEAz blends casting at 45oC
-6 0 0 6 0 1 2 0 1 8 0
T em p era tu re(oC )
En
doth
erm
ic h
eat
flow
(of
fset
sca
le)
100 /0
90 /10
80 /20
70 /30
60 /40
50 /50
40 /60
30 /70
P V P h /P E A z (a s ca st)
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
DSC traces of the PVPh/PEAz blends after quenching from 200oC
-6 0 0 6 0 1 2 0 1 8 0
T em p era tu re (oC )
En
dot
herm
ic h
eat
flow
(of
fset
sca
le)
1 0 0 /0
9 0 /1 0
8 0 /2 0
7 0 /3 0
6 0 /4 0
5 0 /5 0
4 0 /6 0
3 0 /7 0
P V P h /P E A z (2 n d ru n )
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NCKU-PRLPolym. Res. Lab.Nation Cheng Kung Univ.
Clarity point temperature and Tg in PVPh/PEAz binary blends
PVPh/PEAz Clarity point(oC) 1st Tg(oC) 2nd Tg(oC)
0/100 x -56.3 -58.3
10/90 x -55.3 -56.5
20/80 x -46.3 -46.3
30/70 x -35.8 -34.7
40/60 x -17.6 -11.6
50/50 x -5.2 10.3
60/40 144 8.5 , 98 37.2
70/30 162 12.5 , 96.5 46
80/20 167 27.5 , 101.5 69.2
90/10 176 53.5 , 102 95.6