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Mechanical properties of Nafion and titania/Nafion composite membranes for polymer electrolyte membrane fuel cells

Measurements of the mechanical and electrical properties of Nafion and Nafion/titania composite membranes in constrained environments are reported. The elastic and plastic deformation of Nafion‐based materials decreases with both the temperature and water content. Nafion/titania composites have slig...

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Published in:	Journal of polymer science. Part B, Polymer physics Polymer physics, 2006-08, Vol.44 (16), p.2327-2345
Main Authors:	Satterfield, M. Barclay, Majsztrik, Paul W., Ota, Hitoshi, Benziger, Jay B., Bocarsly, Andrew B.
Format:	Article
Language:	English
Subjects:	ionomer mechanical properties Nafion PEM fuel cells polymer composites structure-property relations water sorption
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cited_by	cdi_FETCH-LOGICAL-c4497-ab9c270419ad9fe6e5aae74896aad4ed33bb5d9bc2e6d49418518ebe4a5ab9393
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container_title	Journal of polymer science. Part B, Polymer physics
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creator	Satterfield, M. Barclay Majsztrik, Paul W. Ota, Hitoshi Benziger, Jay B. Bocarsly, Andrew B.
description	Measurements of the mechanical and electrical properties of Nafion and Nafion/titania composite membranes in constrained environments are reported. The elastic and plastic deformation of Nafion‐based materials decreases with both the temperature and water content. Nafion/titania composites have slightly higher elastic moduli. Thecomposite membranes exhibit less strain hardening than Nafion. Composite membranes also show a reduction in the long‐time creep of ∼40% in comparison with Nafion. Water uptake is faster in Nafion membranes recast from solution in comparison with extruded Nafion. The addition of 3–20 wt % titania particles has minimal effect on the rate of water uptake. Water sorption by Nafion membranes generates a swelling pressure of ∼0.55 MPa in 125‐μm membranes. The resistivity of Nafion increases when the membrane is placed under a load. At 23 °C and 100% relative humidity, the resistivity of Nafion increases by ∼15% under an applied stress of 7.5 MPa. There is a substantial hysteresis in the membrane resistivity as a function of the applied stress depending on whether the pressure is increasing or decreasing. The results demonstrate how the dynamics of water uptake and loss from membranes are dependent on physical constraints, and these constraints can impact fuel cell performance. © 2006 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 44: 2327–2345, 2006
doi_str_mv	10.1002/polb.20857
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subjects	ionomer mechanical properties Nafion PEM fuel cells polymer composites structure-property relations water sorption
title	Mechanical properties of Nafion and titania/Nafion composite membranes for polymer electrolyte membrane fuel cells
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