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Accelerated aging studies of UHMWPE. II. Virgin UHMWPE is not immune to oxidative degradation

✍ Scribed by Edidin, A. A. ;Villarraga, M. L. ;Herr, M. P. ;Muth, J. ;Yau, S. S. ;Kurtz, S. M.

Book ID
102292536
Publisher
John Wiley and Sons
Year
2002
Tongue
English
Weight
363 KB
Volume
61
Category
Article
ISSN
0021-9304

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✦ Synopsis

Abstract

In Part I of this series, we showed that aging at elevated oxygen pressure is more successful at increasing the depth to which degradation occurs although it, too, generally causes greater degradation at the surface than at the subsurface. Therefore we hypothesized that thermal degradation alone, in the absence of free radicals, could be sufficient to artificially age UHMWPE in a manner analogous to natural aging. In the present study, virgin and air‐irradiated UHMWPE (extruded GUR 1050 and compression‐molded 1900) were aged up to 4 weeks at elevated oxygen pressure, and the mechanical behavior at the surface and subsurface was examined. All the materials were substantially degraded following 4 weeks of aging, but the spatial variations in the nonirradiated materials more closely mimicked the previously observed subsurface peak of degradation seen in naturally aged UHMWPE following irradiation in air. This aged material could provide a more realistic model for subsurface mechanical degradation, making it suitable for further mechanical testing in venues such as wear simulation. © 2002 Wiley Periodicals, Inc. J Biomed Mater Res 61: 323–329, 2002

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✍ PRIOR, RONALD L. 📂 Article 📅 2001 🏛 Elsevier 🌐 English ⚖ 986 KB

This work contains over thirty chapters by leading researchers in the field of oxidative biology, originally presented as articles in an extended Forum in the highly-cited journal, *Free Radical Biology & Medicine*. The papers in this Forum (or Symposium-in-print) spanned seven issues of the journal