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Xenon migration behaviour in titanium nitride

Abstract : Titanium nitride is one of the inert matrixes proposed to surround the fuel in gas cooled fast reactor (GFR) systems. These reactors operate at high temperature and necessitate refractory materials presenting a high chemical stability and good mechanical properties. A total retention of the most volatile fission products, such as Xe, I or Cs, by the inert matrix is needed during the in pile process. The thermal migration of xenon in TiN was studied by implanting 800 keV Xe++ ions in sintered samples at an ion fluence of 5 × 1015 cm−2. Annealing was performed at temperatures ranging from 1673 to 1923 K for 1 and 3 h. Xenon concentration profiles were studied by Rutherford backscattering spectrometry (RBS) using 2.5 MeV α-particles. The migration behaviour of xenon corresponds to a gas migration model. It is dominated by a surface directed transport with a slight diffusion component. The mean activation energy corresponding to the diffusion component was found to be 2.2 ± 0.3 eV and corresponds to the Brownian motion of xenon bubbles. The directed Xe migration can be interpreted in term of bubble transport using Evans model. This last process is mostly responsible for xenon release from TiN.
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Submitted on : Wednesday, August 5, 2009 - 1:33:04 PM
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S. Gavarini, N. Toulhoat, C. Peaucelle, P. Martin, J. Mende, et al.. Xenon migration behaviour in titanium nitride. E-MRS 2006: Symposium N, Sep 2006, Warsaw, Poland. pp.364-373, ⟨10.1016/j.jnucmat.2007.01.239⟩. ⟨in2p3-00409068⟩



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