Abstract

In this paper, we present a phenomenological model for the viscosity changes in bulk high molecular mass polyethylene (HMMPE) due to the addition of a very small quantity of a main chain longitudinal thermotropic liquid crystalline polymer (TLCP) containing flexible spacers. The chain alignment in the elongated TLCP domains causes chain alignment and disengagement in the neighboring HMMPE melt. In converging capillary flows, this occurs at a certain critical centerline velocity. After the onset of such transition, melt of elongated chain conformations forms from the center core and expands towards the capillary wall with increasing flow rates. The model successfully predicts both the drastic viscosity reduction effects and the critical yield stress in the HMMPE+TLCP blends without any adjustable parameters. Our model is also applicable to other systems that undergo flow-induced phase transitions, e.g. in biphasic liquid crystalline polymer melts.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Organoclay/thermotropic liquid crystalline polymer nanocomposites. Part IV: organoclay of comparable size to fully extended TLCP molecules
Youhong Tang ... Wei Lin
Journal of Materials Science | VOL. 45
Youhong Tang, et. al.Youhong Tang ... Wei Lin
11 Mar 2010
Experimental measurement and numerical simulation of viscosity reduction effects in HMMPE containing a small amount of exfoliated organoclay-modified TLCP composite
You Hong Tang ... Chengbi Zhao
Polymer | VOL. 51
You Hong Tang, et. al.You Hong Tang ... Chengbi Zhao
03 Dec 2009
Organoclay-modified thermotropic liquid crystalline polymers as viscosity reduction agents for high molecular mass polyethylene
Youhong Tang ... Chengbi Zhao
Journal of Materials Science | VOL. 45
Youhong Tang, et. al.Youhong Tang ... Chengbi Zhao
14 May 2010
Effects of thermotropic LCP on rheologica behavior of high molecular mass polyethylene/organoclay composites
You-Hong Tang ... Hong-Mei Yang
Journal of Central South University of Technology | VOL. 14
You-Hong Tang, et. al.You-Hong Tang ... Hong-Mei Yang
01 Feb 2007
View more papers

More From: Polymer

Paper Title
Journal
Date
Author
Tailoring thermal conductivity and printability in boron nitride/epoxy nano- and micro-composites for material extrusion 3D printing
Simone Bagatella ... Marinella Levi
Polymer | VOL. -
Simone Bagatella, et. al.Simone Bagatella ... Marinella Levi
01 Dec 2024
Mitigating aging infrastructure risks: An optimized epoxy resin system for water supply pipeline rehabilitation
Yahong Zhao ... Haoliang Wu
Polymer | VOL. 315
Yahong Zhao, et. al.Yahong Zhao ... Haoliang Wu
01 Dec 2024
Corrigendum to “Micromechanical insights for enhancing the rebound resilience of sealing materials based on TPV” [Polymer 312 (2024) 127679
Chengyuan He ... Xi Kang
Polymer | VOL. -
Chengyuan He, et. al.Chengyuan He ... Xi Kang
01 Dec 2024
Utilizing N-cyclohexyl imine as a protecting group enables faster fabrication of solvent-resistant PEK membranes
Huiting Yu ... Suobo Zhang
Polymer | VOL. 315
Huiting Yu, et. al.Huiting Yu ... Suobo Zhang
01 Dec 2024
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.