Effect of Long Chains on the Threshold Stresses for Flow-Induced Crystallization in iPP: Shish Kebabs vs Sausages

The addition of small concentrations (2 wt % or less) of ultrahigh molecular weight isotactic polypropylene (M L ∼ 3500 kg/mol) to a matrix of lower molecular weight chains (M S ∼ 186 kg/mol, e.g. M L/M S ∼ 20) substantially decreases the critical stress for inducing a highly oriented skin under flo...

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Veröffentlicht in:Macromolecules 2012-08, Vol.45 (16), p.6557-6570
Hauptverfasser: Fernandez-Ballester, Lucia, Thurman, Derek W, Zhou, Weijun, Kornfield, Julia A
Format: Artikel
Sprache:eng
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Zusammenfassung:The addition of small concentrations (2 wt % or less) of ultrahigh molecular weight isotactic polypropylene (M L ∼ 3500 kg/mol) to a matrix of lower molecular weight chains (M S ∼ 186 kg/mol, e.g. M L/M S ∼ 20) substantially decreases the critical stress for inducing a highly oriented skin under flow-induced crystallization conditionssignificantly more than for blends of M L/M S ∼ 5 (Seki et al.)and promotes the formation of point precursors and oriented “sausage-like” structures not observed for M L/M S ∼ 5. These differences correlate with the onset of long chain stretching during shear: the ratio of long chains’ Rouse time to short chains’ disengagement time indicates that 3500 kg/mol chains can easily stretch if tethered onto a point nuclei and even when untethered. Adding 3500 kg/mol chains has strong effects that saturate beyond the overlap concentration, suggesting that an uninterrupted supply of long chains greatly accelerates formation of threads. A conceptual model is proposed that distinguishes between a critical stress for shish initiation and that for propagation.
ISSN:0024-9297
1520-5835
DOI:10.1021/ma3000384