Mouna Saoudi scite author profile

Mouna Saoudi

4Publications

103Citation Statements Received

83Citation Statements Given

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100

Affiliations

Canadian Nuclear Laboratories, National Research Council Canada, Atomic Energy (Canada)

Publications

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An investigation of the thermal stability of Nd Y Zr1−−O2− inert matrix fuel materials

Hayes

Grosvenor

Saoudi

2015

Journal of Alloys and Compounds

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An important step in achieving a closed uranium fuel cycle is to develop new inert matrix fuel (IMF) materials for use in the burn-up of transuranic species (TRU; i.e., Pu, Np, Am, Cm). Cubic fluorite zirconia (ZrO 2) has ideal properties for use in IMF applications, but it is not stable at room temperature and must be stabilized through the addition of small amounts of dopants such as Y. While Y-substituted zirconia (YSZ) has been extensively studied, relatively little work has been done to investigate how the addition of an actinide to the YSZ system affects the properties of these materials. To this end, the long-range and local structures of a series of Nd x Y y Zr 1-x-y O 2-δ compounds (Nd was used as a surrogate for Am) were studied using powder X-ray diffraction (XRD), scanning electron microscopy (SEM), and X-ray absorption spectroscopy (XAS) at the Zr K-, Zr L 3-, Y K-, and Nd L 3-edges. The thermal stability of Nd-YSZ materials was also investigated by annealing the materials at temperatures ranging between 600-1400 °C. These studies showed that the thermal stability of the Nd x Y y Zr 1-x-y O 2-δ system was improved by the addition of small amounts of Y (i.e. ≥ 5 at.%) to the system. Additionally, the XAS results showed that the local structure around Zr remained relatively constant; only changes in the second coordination shell were observed when the materials were annealed. These results strongly suggest that the addition of Y can significantly improve the thermal stability of zirconia-based IMFs. This study has also confirmed the importance and value of using advanced characterization techniques that are sensitive to the local structures of a material (i.e., XAS).

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Neutron reflectometry study of hydrogen desorption in destabilized MgAl alloy thin films

Fritzsche

Saoudi

Haagsma

et al. 2008

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We studied the hydrogen absorption and desorption properties of thin Pd-covered Mg1−xAlx alloy films as a function of temperature and alloy composition. Using neutron reflectometry, we were able to determine the hydrogen content and the hydrogen distribution within these MgAl films in situ. For all films, hydrogen was uniformly dispersed within the MgAl film and no hydrogen was observable in the Pd cover layer. The Mg0.7Al0.3 film shows an appreciable 4.1wt% stored hydrogen and improved desorption characteristics with complete desorption at a temperature of 448K.

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Magnetic ground state of Ti1−xScxFe2 system

Saoudi

Déportes

Ouladdiaf

2001

Journal of Magnetism and Magnetic Materials

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A polarized neutron reflectometry study of the spin glass freezing in a 29nm thick AuFe film

Fritzsche¹,

Saoudi²,

Temst³

et al. 2007

Physica B: Condensed Matter

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Mouna Saoudi

An investigation of the thermal stability of Nd Y Zr1−−O2− inert matrix fuel materials

Neutron reflectometry study of hydrogen desorption in destabilized MgAl alloy thin films

Magnetic ground state of Ti1−xScxFe2 system

A polarized neutron reflectometry study of the spin glass freezing in a 29nm thick AuFe film

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