Effect of molecular weight and hydration on the tensile properties of polyamide 12

Athanasios Touris; Alejandra Turcios; Eric Mintz; Syamala Rani Pulugurtha; Peter Thor; Matt Jolly; Ujwal Jalgaonkar

Results in Materials (Dec 2020)

Effect of molecular weight and hydration on the tensile properties of polyamide 12

Athanasios Touris,
Alejandra Turcios,
Eric Mintz,
Syamala Rani Pulugurtha,
Peter Thor,
Matt Jolly,
Ujwal Jalgaonkar

Affiliations

Athanasios Touris: Medtronic, Neurovascular Division, 5290 California Avenue, 92617, Irvine, CA, USA; Corresponding author.
Alejandra Turcios: Medtronic, Neurovascular Division, 5290 California Avenue, 92617, Irvine, CA, USA
Eric Mintz: Medtronic, Neurovascular Division, 5290 California Avenue, 92617, Irvine, CA, USA
Syamala Rani Pulugurtha: Medtronic, Neurovascular Division, 5290 California Avenue, 92617, Irvine, CA, USA
Peter Thor: Medtronic Core Laboratories, 710 Medtronic Parkway NE, 55432, Minneapolis, MN, USA
Matt Jolly: Medtronic Core Laboratories, 710 Medtronic Parkway NE, 55432, Minneapolis, MN, USA
Ujwal Jalgaonkar: Medtronic, Neurovascular Division, 5290 California Avenue, 92617, Irvine, CA, USA

Journal volume & issue: Vol. 8
p. 100149

Abstract

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Polyamide 12 (PA12) has found significant applications in the medical device industry, including its common use as an outer jacket layer in catheters. Like all polymers, PA12 can undergo degradation reactions, which compromise the mechanical and physical properties of the material. In this paper FTIR/ATR, 1H NMR, kinematic viscosity, GPC, DMA and DSC were used to characterize several PA12 catheter jackets. The results showed a decrease in elasticity when the PA12 molecular weight dropped below a critical value. Additionally, stress/strain measurements of dry and hydrated PA12 samples were used to investigate the plasticization effect of water on the properties of the material. An increase in elasticity was observed as the hydration of the samples increased, although the PA12 samples quickly dried back out to their initial stiff state. The PA12 extrusion conditions were also examined to determine how the selection of draw down ratio and air gap can affect the elastic properties of the final part.

Published in Results in Materials

ISSN: 2590-048X (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://www.journals.elsevier.com/results-in-materials

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