Pablo Ayala Santamaría scite author profile

The ability of a nanoclay to improve the transport and mechanical properties of amorphous polyamide (aPA)‐based films was studied as a function of the draw ratio (DR) and the nanoclay content. The presence of nanoclay did not hinder the drawing ability as the maximum DR of the nanocomposites (NCs) and of the aPA were almost the same (51 for the aPA and from 51 to 55 for the NCs). The high degree of exfoliation and orientation along the drawing direction led to a 30% reduction in the water diffusion coefficient compared with the aPA. Moreover, the already low permeability of the aPA to oxygen was halved. The modulus of elasticity presented unusual increases both in the machine and transverse directions. Both increases of properties were attributed to the planar geometry of the oriented nanoclay sheets. The effects of the presence of nanoclay on the modulus of elasticity in the draw direction in addition to the effects caused by drawing lead to a combined modulus increase of 65% in the highly drawn 6%NC films. The nanoclay also reduced the modulus anisotropy of the films. An increase in either the nanoclay content or the DR causes a decrease in ductility due to both the stress concentrations created by the nanoclay and to the increasing number of chain segments located parallel to the drawing direction. The dimensional stability of the films greatly increased as the addition of 6% nanoclay led to a 70% decrease in creep deformation after 120 h. Copyright © 2012 John Wiley & Sons, Ltd.

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Mechanical and barrier properties of ternary nanocomposite films based on polycarbonate/amorphous polyamide blends modified with a nanoclay

Santamaría

González

Eguiazábal

2015

Polymers for Advanced Techs

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Ternary polycarbonate (PC)/amorphous polyamide-nanoclay (naPA) nanocomposite (PC/naPA) films were obtained by melt mixing and drawing, and the effects of the naPA content and the draw ratio (DR) on the structure, morphology and mechanical and barrier properties were studied. Despite the presence of nanoclay, the films exhibited a negligible roughness and the excellent optical properties of PC and amorphous polyamide (aPA). The dispersed naPA phase was pure and small, indicating compatibility. The naPA did not hinder the drawing ability of PC. At low DRs the dispersed phase was elongated and oriented along the machine direction (extrusion flow direction), but at high DRs, it fibrillated due to the higher non-isothermal elongational flow induced by drawing. The laminar structure of the nanoclay allowed the films to be reinforced both in the machine and the transverse directions. The oxygen permeability of PC was reduced by 42% in the nanocomposite with 25% of naPA, and dropped further with the DR, which is attributed to the increased tortuosity of the oxygen path induced by fibrillation.

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“Structure and mechanical properties of blown films of ionomer-compatibilized LDPE nanocomposites”

Santamaría¹,

Eguiazábal²

2012

Polymer Testing

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