Excess free volume in metallic glasses measured by X-ray diffraction

Excess free volume in metallic glasses measured by X-ray diffraction

In crystalline materials, lattice expansion as measured by diffraction methods differs from the expansion of the sample dimensions as measured by dilatometry, due to the contribution of thermal vacancies to the latter. We have found that in glassy materials and metallic glasses in particular, this i...

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Bibliographic Details
Published in:Acta materialia Vol. 53; no. 6; pp. 1611 - 1619
Main Authors: Yavari, Alain Reza, Moulec, Alain Le, Inoue, Akihisa, Nishiyama, Nobuyuki, Lupu, Nicoleta, Matsubara, Eiichiro, Botta, Walter José, Vaughan, Gavin, Michiel, Marco Di, Kvick, Åke
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-04-2005
Elsevier Science
Subjects:
Applied sciences
Deformation
Diffraction
Exact sciences and technology
Free volume
Metallic glass
Metals. Metallurgy
Relaxation
Synchrotron light
Thermal expansion
Thermal expansion
Relaxation
Deformation
Diffraction
Free volume
Synchrotron light
Metallic glass
Metallic glasses
Amorphous alloy
X ray diffraction
Expansion
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Summary:In crystalline materials, lattice expansion as measured by diffraction methods differs from the expansion of the sample dimensions as measured by dilatometry, due to the contribution of thermal vacancies to the latter. We have found that in glassy materials and metallic glasses in particular, this is not the case for the contribution of free volume. These findings are the first direct experimental confirmation of simulation results indicating that atomic size holes are unstable in glasses such that free volume is dispersed randomly. This allows direct measurement of excess free volume in glasses using diffraction methods in place of dilatometry, which is difficult to use once the sample softens at the glass transition temperature T g and above. Quenched-in and deformation-induced free-volume Δ V f were measured by X-ray diffraction in transmission during heating using synchrotron light. The measured thermal expansion coefficients α th were the same as in dilatometry. The glass transition T g appeared as a break in the value of α th at T g. The “change-of-slope method” was applied to the kinetics of relaxation to derive the activation energy for the free-volume annihilation process.
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ISSN:1359-6454
1873-2453
DOI:10.1016/j.actamat.2004.12.011