Affiliation:
1. Division of Physical Sciences and Engineering Department of Chemical Sciences King Abdullah University of Science and Technology (KAUST) Thuwal 23955‐6900 Kingdom of Saudi Arabia
2. Department of Biobased Materials Maastricht University Brightlands Chemelot Campus Urmonderbaan 22 6167 RD The Netherlands
3. Reliance Research Development Group Reliance Industries Ltd Reliance Corporate Park, Ghansoli Navi Mumbai Maharashtra 400701 India
Abstract
AbstractIntroducing the reverse micelle formation during polymerization, and thus avoiding the catalyst support, aggregated single crystals of ultra‐high molecular weight isotactic polypropylene having spherical morphology are obtained. The ease in flowability of the spherical nascent morphology, having a low‐entangled state in the non‐crystalline region of the single crystals in the semi‐crystalline polymer, allows the sintering of the nascent polymer in the solid state without melting. Thus maintains a low‐entangled state, and facilitates the translation of macroscopic forces to macromolecular length scale, without melting, leading to the formation of uniaxially drawn objects having unprecedented properties that can be used in the development of one component, high‐performance, easy‐to‐recycle composites. Thus having the potential of replacing difficult‐to‐recycle hybrid composites.
Subject
Materials Chemistry,Polymers and Plastics,Organic Chemistry
Cited by
6 articles.
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