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W4280581570 endingPage "124963" @default.
W4280581570 startingPage "124963" @default.
W4280581570 abstract "Selective distribution of carbon nanotubes and morphology of conductive polymer composites were very important factors to their electrical conductivity and electromagnetic waves (EMW) shielding performance. Herein, the migration behavior of carbon nanotubes (CNTs) in co-continuous poly(lactic acid)/poly(ε-caprolactone) (PLA/PCL) blend was investigated via pre-compounding CNTs in one phase and controlling the mixing time. Because of the higher interaction between CNTs and PCL phase, the migration of CNTs happened from PLA phase to PCL phase when CNTs were pre-mixed with PLA. Due to the viscosity enhancement of pre-compounding PCL/CNT and PLA/CNT, the matching viscosity-dependent morphology was obvious in the composites with different mixing sequences. The better viscosity matching of two polymer phases resulted in the smaller size of two phases, which had more interfaces to enhance microwave attenuation. The effect of CNTs migration and mixing rates on morphological size and EMW shielding performance of the composites were also evaluated. Specifically, the composites with pre-mixing PCL/CNT and then PLA at low shear stress exhibited the smaller size of phases and higher EMW shielding effectiveness (SE) values because of higher interfacial polarization and higher multiple reflection/scattering." @default.
W4280581570 created "2022-05-22" @default.
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W4280581570 date "2022-06-01" @default.
W4280581570 modified "2023-10-11" @default.
W4280581570 title "Migration mechanism of carbon nanotubes and matching viscosity-dependent morphology in Co-continuous Poly(lactic acid)/Poly(ε-caprolactone) blend: Towards electromagnetic shielding enhancement" @default.
W4280581570 cites W1601865823 @default.
W4280581570 cites W1803455552 @default.
W4280581570 cites W1829349937 @default.
W4280581570 cites W1967346962 @default.
W4280581570 cites W1972127805 @default.
W4280581570 cites W1974600657 @default.
W4280581570 cites W1978200810 @default.
W4280581570 cites W1980804809 @default.
W4280581570 cites W1983463251 @default.
W4280581570 cites W1993624720 @default.
W4280581570 cites W1994187811 @default.
W4280581570 cites W1995144866 @default.
W4280581570 cites W2010901327 @default.
W4280581570 cites W2016303090 @default.
W4280581570 cites W2026147054 @default.
W4280581570 cites W2026616526 @default.
W4280581570 cites W2028877074 @default.
W4280581570 cites W2040665241 @default.
W4280581570 cites W2052036185 @default.
W4280581570 cites W2052231690 @default.
W4280581570 cites W2055402830 @default.
W4280581570 cites W2055448510 @default.
W4280581570 cites W2073568908 @default.
W4280581570 cites W2076772557 @default.
W4280581570 cites W2081860407 @default.
W4280581570 cites W2081874141 @default.
W4280581570 cites W2086084023 @default.
W4280581570 cites W2090273718 @default.
W4280581570 cites W2090375194 @default.
W4280581570 cites W2094563233 @default.
W4280581570 cites W2099848957 @default.
W4280581570 cites W2113647624 @default.
W4280581570 cites W2140148818 @default.
W4280581570 cites W2291338052 @default.
W4280581570 cites W2320878140 @default.
W4280581570 cites W2321552355 @default.
W4280581570 cites W2329774568 @default.
W4280581570 cites W2332818851 @default.
W4280581570 cites W2463540556 @default.
W4280581570 cites W2474458993 @default.
W4280581570 cites W2565237046 @default.
W4280581570 cites W2566250700 @default.
W4280581570 cites W2572938193 @default.
W4280581570 cites W2588642642 @default.
W4280581570 cites W2607186161 @default.
W4280581570 cites W2624202199 @default.
W4280581570 cites W2741991405 @default.
W4280581570 cites W2748887193 @default.
W4280581570 cites W2756169841 @default.
W4280581570 cites W2770466208 @default.
W4280581570 cites W2790563745 @default.
W4280581570 cites W2790887288 @default.
W4280581570 cites W2806098678 @default.
W4280581570 cites W2895909803 @default.
W4280581570 cites W2900507437 @default.
W4280581570 cites W2913112222 @default.
W4280581570 cites W3026325040 @default.
W4280581570 cites W3034785993 @default.
W4280581570 cites W3043367798 @default.
W4280581570 cites W3129381167 @default.
W4280581570 cites W3142982510 @default.
W4280581570 cites W3172457144 @default.
W4280581570 cites W3192218221 @default.
W4280581570 cites W3195478325 @default.
W4280581570 cites W3202552565 @default.
W4280581570 cites W3214681592 @default.
W4280581570 cites W40301670 @default.
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W4280581570 doi "https://doi.org/10.1016/j.polymer.2022.124963" @default.
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