Title

Hierarchical Acrylic Acid Aggregate Morphologies Produce Strain-Hardening In Precise Polyethylene-Based Copolymers

Document Type

Article

Publication Date

5-27-2015

School

Polymer Science and Engineering

Abstract

We report tensile testing and in situ X-ray scattering measurements of a homologous series of precise poly(ethylene-co-acrylic acid) copolymers (pxAA). The number of backbone carbons (x) between pendant acrylic acid groups along the polyethylene chain (x = 9, 15, 21) has a pronounced effect on both their tensile properties as well as their morphologies during deformation. The semicrystalline precise copolymer (p21AA) displays yielding behavior similar to polyethylene. Also, strain hardening in p21AA coincides with the originally isotropic acid-rich layered structures strongly aligning with acid layers perpendicular to the strain direction, demonstrating the facile nature of the H-bonding within the acid aggregates. When the alkyl spacer is only nine carbons (p9AA), the precise copolymer withstands strains of >1000% without failing, because the liquid-like assembly of acid aggregates permits the acid groups to exchange without developing substantial anisotropy in the structure. Both p21AA and p9AA maintain their morphology type during deformation with considerable plastic deformation and only modest increase in their interaggregate distances. In contrast, p15AA exhibits a structural transformation from a nominally spherical to a layered aggregate morphology during tensile deformation as evidenced by higher order peaks at intermediate scattering angles and larger interaggregate spacing, coinciding with substantial strain hardening. The structural changes in p15AA are particularly sensitive to the strain rate, because the relaxation times of the PE segments and the acid aggregates are accessible. Commensurate with this structural transformation, p15AA has the highest tensile strength of the precise poly(ethylene-co-acrylic acid) copolymers.

Publication Title

Macromolecules

Volume

48

Issue

11

First Page

3713

Last Page

3724

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