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Inter-relationships between tie-molecule concentrations, molecular characteristics and mechanical properties in metallocene catalysed medium density polyethylenes

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Abstract

Classical tie-molecule concentrations in a series of metallocene catalysed medium density polyethylenes have been computed and comparisons made with literature data on non-metallocene catalysed systems over a comparable density range. It is shown that a complex inter-relationship exists between the concentration of classical tie-molecules and molecular weight, lamellar thickness and crystallinity and the X-ray long period where the latter is influenced by the concentration of short chain branches. Tie-molecule concentration levels increase steeply beyond a short chain branch (SCB) content of approximately 4 butyls/1000 C atoms with a maximum value for a metallocene sample containing 9.7 butyls/1000 C atoms. Relative tie-molecule concentrations corrected for volume crystallinity decrease sharply with increasing X-ray long period and decreasing short chain branch content. Comparisons among the different catalyst systems revealed that a chromium catalysed polyethylene with 6.8 butyls/1000C atoms had a similar tie-molecule concentration to a metallocene catalysed polyethylene with 11.5 butyls/1000C atoms. Tear and impact strength data showed a continuous increase with increasing short chain branching, varying slightly with catalysts type but differing significantly at the highest concentration levels of short chain branching. These mechanical property – SCB content correlations are closely related to those between classical tie-molecule concentrations and the degree of short chain branching.

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Authors and Affiliations

  1. Polymer Research Centre, School of Physics and Chemistry, University of Surrey Guildford, Surrey, GU2 7XH

    J. J. Janimak & G. C. Stevens

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  1. J. J. Janimak
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  2. G. C. Stevens
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Janimak, J.J., Stevens, G.C. Inter-relationships between tie-molecule concentrations, molecular characteristics and mechanical properties in metallocene catalysed medium density polyethylenes. Journal of Materials Science 36, 1879–1884 (2001). https://doi.org/10.1023/A:1017517118154

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