Rheological Images of Poly(vinyl chloride) Gels. 5. Effect of Molecular Weight Distribution

Three blends were prepared from a high molecular weight of poly(vinyl chloride) (PVC) (M w = 173 000, M w/M n = 2.0) and a low molecular weight PVC (M w = 39 400, M w/M n = 1.7). Dynamic viscoelastic properties of these PVC blends in bis(2-ethylhexyl) phthalate (DOP) were measured at 40 °C as a func...

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Veröffentlicht in:	Macromolecules 1998-10, Vol.31 (21), p.7472-7478
Hauptverfasser:	Aoki, Yuji, Li, Lin, Uchida, Hisao, Kakiuchi, Munetaka, Watanabe, Hiroshi
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Sprache:	eng
Schlagworte:	Applied sciences Exact sciences and technology Organic polymers Physicochemistry of polymers Properties and characterization Solution and gel properties
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container_end_page	7478
container_issue	21
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container_title	Macromolecules
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creator	Aoki, Yuji Li, Lin Uchida, Hisao Kakiuchi, Munetaka Watanabe, Hiroshi
description	Three blends were prepared from a high molecular weight of poly(vinyl chloride) (PVC) (M w = 173 000, M w/M n = 2.0) and a low molecular weight PVC (M w = 39 400, M w/M n = 1.7). Dynamic viscoelastic properties of these PVC blends in bis(2-ethylhexyl) phthalate (DOP) were measured at 40 °C as a function of polymer concentration, and the effect of long chains on gelation has been studied. The scaling exponent n at the gel point was found to be constant (=0.75), independent of molecular weight and molecular weight distribution. The critical concentration c g for the sol−gel transition still followed the relation c g ∝ M w -1, which was unchangeable with the molecular weight distribution and was also in good agreement with the previous results. As a result, c g was well expressed by a mixing rule, 1/c g = w 1/c g1 + w 2/c g2, where w i is the weight fraction of the component polymer i. The gel strength S g at the gel point did not obey the relation S g ∝ M w -1, but scaled as S g ∝ M z -1 to show the effect of long chains on gelation. In the postgel state, the gel elasticity determined by the quasi-equilibrium modulus G e still followed the scaling law, G e ∝ ε z , where ε is the relative distance to the gel point and z = 2.6 for the (PVC blend)/DOP samples, but the G e values at the same ε were observed to be dominated by the long chains of PVC.
doi_str_mv	10.1021/ma971889f
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The critical concentration c g for the sol−gel transition still followed the relation c g ∝ M w -1, which was unchangeable with the molecular weight distribution and was also in good agreement with the previous results. As a result, c g was well expressed by a mixing rule, 1/c g = w 1/c g1 + w 2/c g2, where w i is the weight fraction of the component polymer i. The gel strength S g at the gel point did not obey the relation S g ∝ M w -1, but scaled as S g ∝ M z -1 to show the effect of long chains on gelation. 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Effect of Molecular Weight Distribution</atitle><jtitle>Macromolecules</jtitle><addtitle>Macromolecules</addtitle><date>1998-10-20</date><risdate>1998</risdate><volume>31</volume><issue>21</issue><spage>7472</spage><epage>7478</epage><pages>7472-7478</pages><issn>0024-9297</issn><eissn>1520-5835</eissn><coden>MAMOBX</coden><abstract>Three blends were prepared from a high molecular weight of poly(vinyl chloride) (PVC) (M w = 173 000, M w/M n = 2.0) and a low molecular weight PVC (M w = 39 400, M w/M n = 1.7). Dynamic viscoelastic properties of these PVC blends in bis(2-ethylhexyl) phthalate (DOP) were measured at 40 °C as a function of polymer concentration, and the effect of long chains on gelation has been studied. The scaling exponent n at the gel point was found to be constant (=0.75), independent of molecular weight and molecular weight distribution. The critical concentration c g for the sol−gel transition still followed the relation c g ∝ M w -1, which was unchangeable with the molecular weight distribution and was also in good agreement with the previous results. As a result, c g was well expressed by a mixing rule, 1/c g = w 1/c g1 + w 2/c g2, where w i is the weight fraction of the component polymer i. The gel strength S g at the gel point did not obey the relation S g ∝ M w -1, but scaled as S g ∝ M z -1 to show the effect of long chains on gelation. In the postgel state, the gel elasticity determined by the quasi-equilibrium modulus G e still followed the scaling law, G e ∝ ε z , where ε is the relative distance to the gel point and z = 2.6 for the (PVC blend)/DOP samples, but the G e values at the same ε were observed to be dominated by the long chains of PVC.</abstract><cop>Washington, DC</cop><pub>American Chemical Society</pub><doi>10.1021/ma971889f</doi><tpages>7</tpages></addata></record>
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title	Rheological Images of Poly(vinyl chloride) Gels. 5. Effect of Molecular Weight Distribution
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