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Title: Atomistic Simulation of High‐Density Uranium Fuels

Journal Article · · Science and Technology of Nuclear Installations
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We apply an atomistic modeling approach to deal with interfacial phenomena in high‐density uranium fuels. The effects of Si, as additive to Al or as U‐Mo‐particles coating, on the behavior of the Al/U‐Mo interface is modeled by using the Bozzolo‐Ferrante‐Smith (BFS) method for alloys. The basic experimental features characterizing the real system are identified, via simulations and atom‐by‐atom analysis. These include (1) the trend indicating formation of interfacial compounds, (2) much reduced diffusion of Al into U‐Mo solid solution due to the high Si concentration, (3) Si depletion in the Al matrix, (4) an unexpected interaction between Mo and Si which inhibits Si diffusion to deeper layers in the U‐Mo solid solution, and (5) the minimum amount of Si needed to perform as an effective diffusion barrier. Simulation results related to alternatives to Si dispersed in the Al matrix, such as the use of C coating of U‐Mo particles or Zr instead of the Al matrix, are also shown. Recent experimental results confirmed early theoretical proposals, along the lines of the results reported in this work, showing that atomistic computational modeling could become a valuable tool to aid the experimental work in the development of nuclear fuels.

Sponsoring Organization:
USDOE
Grant/Contract Number:
AC02-06CH11357
OSTI ID:
1234002
Journal Information:
Science and Technology of Nuclear Installations, Journal Name: Science and Technology of Nuclear Installations Journal Issue: 1 Vol. 2011; ISSN 1687-6075
Publisher:
Hindawi Publishing CorporationCopyright Statement
Country of Publication:
Egypt
Language:
English

References (11)

Thermal compatibility studies of unirradiated UMo alloys dispersed in aluminum journal November 1997
Modeling of multicomponent systems: Role of Mo and Si on the interaction of Al and γ-UMo journal July 2007
Post-irradiation examination of uranium–7wt% molybdenum atomized dispersion fuel journal October 2004
Transmission electron microscopy investigation of irradiated U–7wt%Mo dispersion fuel journal April 2008
Microstructural development in irradiated U-7Mo/6061 Al alloy matrix dispersion fuel journal September 2009
Transmission electron microscopy characterization of irradiated U–7Mo/Al–2Si dispersion fuel journal January 2010
Role of Si on the Al behavior in the reaction layer of Al∕UMo diffusion couples journal February 2007
Equivalent-crystal theory of metal and semiconductor surfaces and defects journal September 1991
Method for calculating alloy energetics journal January 1992
Determination of structural alloy equilibrium properties from quantum approximate methods journal April 2005
Generalized Gradient Approximation Made Simple journal October 1996

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