Issue 12, 2021

Microphase separation/crosslinking competition-based ternary microstructure evolution of poly(ether-b-amide)

Abstract

The temperature dependence of the rheological properties of poly(ether-b-amide) (PEBA) segmented copolymer under oscillatory shear flow has been investigated. The magnitude of the dynamic storage modulus is affected by the physical microphase separation and irreversible crosslinking network, with the latter spontaneously forming between the polyamide segments and becoming the dominant factor in determining the microstructural evolution at temperatures well above the melting point of PEBA. From the rheological results, the initial temperature of the rheological properties dominated by the microphase separation Image ID:d0ra10627e-t1.gif and crosslinking (Tcross) structures were determined, respectively. Based on the two obtained temperatures, the microstructure evolution upon the heating can be separated into the ternary microstructure domains: homogenous (temperature below Image ID:d0ra10627e-t2.gif), microphase separation dominating (between Image ID:d0ra10627e-t3.gif and Tcross), and crosslinking dominating domains (above Tcross). When the PEBA is heated to above Tcross, the content of crosslinking network increases with time and temperature, leading to an irreversible and non-negligible influence on the rheological, crystallization, and mechanical properties. A more pronounced strain-hardening phenomenon during the uniaxial stretching is observed for the sample with a higher content of crosslinking network.

Graphical abstract: Microphase separation/crosslinking competition-based ternary microstructure evolution of poly(ether-b-amide)

Supplementary files

Article information

Article type
Paper
Submitted
18 Dec 2020
Accepted
24 Jan 2021
First published
10 Feb 2021
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2021,11, 6934-6942

Microphase separation/crosslinking competition-based ternary microstructure evolution of poly(ether-b-amide)

Y. Wang, Z. Wang, P. Zhu, X. Liu, L. Wang, X. Dong and D. Wang, RSC Adv., 2021, 11, 6934 DOI: 10.1039/D0RA10627E

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