Detection of Low Levels of Long-Chain Branching in Polyolefins

Shear creep experiments have been applied to probe the zero-shear viscosity, e0, of molten undiluted polyolefin chains directly and precisely in a constant-stress rheometer at 190 deg C. Such experiments when combined with precise measurements of the weight-average molecular weight, Mw (calibrated r...

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Main Authors: Karjala, T P, Sammler, R L, Mangnus, M A, Hazlitt, L G, Johnson, M S, Hagen Jr, C M, Huang, J W L, Reichek, K N
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creator Karjala, T P
Sammler, R L
Mangnus, M A
Hazlitt, L G
Johnson, M S
Hagen Jr, C M
Huang, J W L
Reichek, K N
description Shear creep experiments have been applied to probe the zero-shear viscosity, e0, of molten undiluted polyolefin chains directly and precisely in a constant-stress rheometer at 190 deg C. Such experiments when combined with precise measurements of the weight-average molecular weight, Mw (calibrated relative to linear chains of high-density polyethylene), are shown to provide a very sensitive approach to detect low levels (0.005 branches per 1000 carbons) of long-chain branching. This detection limit is shown with an extensive set of well-defined metallocene-based model materials to be insensitive to whether the molecular weight distribution is mono- or multi-modal, and/or to whether the molecular weight distribution breadth (Mw/Mn) rises to about ten. The approach is also shown to be insensitive to levels of short-chain branching found in poly(ethylene-co-butene) up to 12 wt% butene and poly(ethylene-co-hexene) up to 14 wt% hexene. In conclusion, this approach is a sensitive, robust, and rapid method to detect low levels of long-chain branching in polyolefin materials.
doi_str_mv 10.1063/1.2964685
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title Detection of Low Levels of Long-Chain Branching in Polyolefins
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