Nuclear analysis of the copper alloys for fusion technologies by Monte Carlo method
The work is focused on the neutronic calculation of the nuclear parameters (distribution of neutron fluency, atomic displacement, nuclear heating, gas production, photon production, nuclear reactions and induced activity) in a specimen of the cooper alloy (CuCrZr) using Monte Carlo Neutron-Particle...
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Veröffentlicht in: | Computational materials science 2006-05, Vol.36 (1), p.121-124 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | The work is focused on the neutronic calculation of the nuclear parameters (distribution of neutron fluency, atomic displacement, nuclear heating, gas production, photon production, nuclear reactions and induced activity) in a specimen of the cooper alloy (CuCrZr) using Monte Carlo Neutron-Particle Transport code MCNP-4C2. This alloy is currently one of the best candidate materials for the first wall of the International Thermonuclear Experimental Reactor (ITER) which will be exposed to high neutron load with energy of about 14.1
MeV. The MCNP model of the investigated specimen (12
×
12
×
0.5
mm) consists of 98.683% Cu, 0.754% Cr, 0.163% Zr and 0.4% Cs. The number of primary knock-out atoms calculated for this alloy specimen is 8.253E−02 atoms/(source neutron
cm
3). The calculated helium production is 2.857E−03 atoms/(source neutron
cm
3), and the hydrogen production is 1.387E−02 atoms/(source neutron
cm
3). Activity of the specimen by copper activation is of about 5
MBq. The TRIM 98.01 code has been used for the simulation of defects creation in copper by hydrogen H
+ of 95
keV energy, only. The defects production has been identified in the region of about 400–800
nm. Results obtained by Monte Carlo calculations will be used for understanding of the experimental data from positron annihilation spectroscopy measurements which are scheduled for next year. |
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ISSN: | 0927-0256 1879-0801 |
DOI: | 10.1016/j.commatsci.2004.11.021 |