Analysis of Internal Friction Peaks in High Purity Molybdenum by a Viscoelastic Procedure Independent of the Relaxation Strength
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Published:2008-03
Issue:
Volume:137
Page:49-58
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ISSN:1662-9779
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Container-title:Solid State Phenomena
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language:
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Short-container-title:SSP
Author:
Matteo C.L.1,
Lambri O.A.2,
Zelada-Lambri G.I.2,
Sorichetti P.A.1,
García Jose Angel3
Affiliation:
1. Universidad de Buenos Aires
2. Universidad Nacional de Rosario
3. Universidad del País Vasco
Abstract
In this work we present a novel procedure, involving linear viscoelastic analysis, to
discriminate the two possible contributions of the observed damping peak which appears around
840 K – 1050 K in mechanically deformed high purity single-crystalline molybdenum. An
interesting feature of the procedure is that, for low damping samples, it can efficiently resolve
experimental peaks that result from the superposition of different processes independently of the
ratio between their relaxation strengths. This allows us to confirm that two different relaxation
processes appear in molybdenum in the temperature range about 0.3 Tm, one around 840 K, and the
other one near 1050 K. These can be related to diffusion and to a coupled mechanism involving
creation and diffusion of vacancies, respectively.
Publisher
Trans Tech Publications, Ltd.
Subject
Condensed Matter Physics,General Materials Science,Atomic and Molecular Physics, and Optics