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- European Synchrotron Radiation Facility
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industrial scale powder processing routes have been used for mixed oxide (MOx) fuel manufacture, both approaches rely heavily on milling — typically ball milling — to reduce particle size, mix powders, and
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materials using solvent passed chemistry and high temperature furnaces. The prepared samples are characterized using X-ray and neutron powder diffraction techniques as well as characterization of physical
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University Bochum Project 2: “In situ studies of the mechanochemical synthesis of intermetallic compounds” under the supervision of Prof. Weidenthaler, Powder Diffraction and Surface Spectroscopy group
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. Historically, two industrial scale powder processing routes have been used to manufacture MOx fuel materials, the micronized master blend (MIMAS) developed by Belgonucleaire and utilised in the Orano MELOX fuel
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PhD student at ILL: studying In situ neutron diffraction for green steel and functional metal oxides
for hydrogen reduction by in situ methods You will join the diffraction group at the ILL, Grenoble, France, and work on the powder diffractometers D1B and D20. They are specialised for time-resolved in situ
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in magnetoelectric antiferromagnets. You will join the diffraction group at ILL, Grenoble, France. The diffraction group operates several powder and single-crystal diffractometer dedicated
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PhD student at ILL on Advanced Neutron Imaging for Defect Mapping in Repaired Aero-Engine Components
Mapping in Laser-Blown-Powder Repaired Aero-Engine Components You will join the Applied Science Group at the Institut Laue-Langevin (ILL), Grenoble, France and be enrolled at The University of Manchester
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power. This involves the design of fundamentally new alloys by computational methods; production through arc melting, powder metallurgy or additive manufacturing; characterisation using advanced electron
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Institute of Low Temperature and Structure Research Polish Academy of Sciences | Poland | about 1 month ago
relationships, the obtained materials will be in-depth characterized using advanced techniques, including powder X-ray diffraction, transmission and scanning electron microscopy, photoelectron spectroscopy, X-ray
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. Historically, two industrial scale powder processing routes have been used to manufacture MOx fuel materials, the micronized master blend (MIMAS) developed by Belgonucleaire and utilised in the Orano MELOX fuel