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Suppressed cavitation in die-drawn isotactic polypropylene
Lyu, D. Sun, Y. Lu, Y. Liu, L. Chen, R. Thompson, Glen P. Caton-Rose, Philip D. Coates, Philip D. Wang, Y. Men, Y.
Lyu, D.
Sun, Y.
Lu, Y.
Liu, L.
Chen, R.
Thompson, Glen P.
Caton-Rose, Philip D.
Coates, Philip D.
Wang, Y.
Men, Y.
Publication Date
2020-06
End of Embargo
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Rights
© 2020 American Chemical Society. This document is the Accepted Manuscript version of a Published Work that appeared in final form in Macromolecules, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acs.macromol.0c00005.
Peer-Reviewed
Yes
Open Access status
Green
Accepted for publication
2020-05
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Abstract
Cavitation is an important phenomenon in solid-phase deformation of polymers, which either has potential adverse effects on physical properties or creates potential opportunities for new properties. In either case, it needs to be better understood to help achieve better control of cavitation and its effects. Cavitation associated with solid-phase deformation in a β-nucleated isotactic polypropylene was found to depend on the solid-phase deformation route employed. Compared with samples obtained by free tensile stretching, cavitation was suppressed in samples deformed via die-drawing, although an almost identical β-to α-phase transition was observed for both deformation routes. Even when die-drawn samples were subsequently deformed to large strains by free stretching, there was still no comparable cavitation compared with the single free tensile-stretching route. The die-drawing process appears to suppress cavitation by fundamentally diminishing the number of growable nuclei of cavities, rather than merely hindering the growth of cavities. A relationship between cavitation intensity and the fractions of lamellae along specific directions has been established. During subsequent free stretching of die-drawn samples, newly created cavities were suggested to be initiated within the crystalline layers. The reduction of the cavity nuclei in the die-drawing process originated from the stabilization of the connections between the crystalline blocks within the lamellae.
Version
Accepted manuscript
Citation
Lyu D, Sun Y, Lu Y et al (2020) Suppressed cavitation in die-drawn isotactic polypropylene. Macromolecules. 53(12): 4863-4873.
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Article