Hydrogen internal friction peak and thermal desorption spectrum in amorphous Cu50Zr50
Author:
Publisher
Elsevier BV
Subject
General Engineering
Reference16 articles.
1. Discovery of an Internal-Friction Peak in the Metallic GlassNb3Ge
2. Hydrogen in Disordered and Amorphous Solids;Berry,1986
3. Internal friction of hydrogen in amorphous Ni35Ti65
4. Hydrogen internal friction peak and the effect of quenching in amorphous cuti
5. Effects of Annealing and Deformation on the Hydrogen Internal Friction Peak in Amorphous CuTi*
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1. Internal Friction in Metallic Materials;Springer Series in Materials Science;2007
2. Internal friction of hydrogen-doped metallic glasses;Materials Science and Engineering: A;2004-07
3. Internal friction of hydrogen-doped metallic glasses of high glass forming ability;Materials Science and Engineering: A;2004-04
4. Effects of Hydrogen on the Mechanical Properties of Ti50Ni25Cu25 Metallic Glass;MATERIALS TRANSACTIONS;2002
5. Local structure of metallic glasses as seen by mechanical hydrogen relaxation;Journal of Alloys and Compounds;2000-09
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