Quantitative analysis of transmutation nuclides in pure tungsten irradiated with high-energy protons and spallation neutrons at 6.4 and 28 dpa

•Quantitative analysis of fourty transmutation nuclides in pure tungsten irradiated at 6.4 and 28 dpa.•Comparison between APT-measured and MCNP-calculated transmutation products in tungsten.•Clustering of rhenium and other transmutation elements in irradiated tungsten. Tungsten is a key material for...

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Bibliographic Details
Published in:Nuclear materials and energy 2024-12, Vol.41, p.101757, Article 101757
Main Authors: Araullo-Peters, Vicente, Dai, Yong
Format: Article
Language:English
Subjects:
Atom Probe Tomography
Spallation Target
Transmutation Elemnets
Tungsten
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Summary:•Quantitative analysis of fourty transmutation nuclides in pure tungsten irradiated at 6.4 and 28 dpa.•Comparison between APT-measured and MCNP-calculated transmutation products in tungsten.•Clustering of rhenium and other transmutation elements in irradiated tungsten. Tungsten is a key material for applications of spallation targets and fusion reactors. Irradiation-induced transmutation products can significantly affect the mechanical and thermal properties of tungsten. However, detailed quantitative analysis of transmutation elements of irradiated tungsten has not been reported and is therefore in high demand, especially in the cases of spallation targets where a large amounts of transmutation elements are produced. In this work, we analyzed the transmutation products in pure tungsten samples irradiated in a target of Swiss Spallation Neutron Source (SINQ) at doses of 6.4 and 28 dpa, the latter being the highest dose ever achieved in spallation targets. Quantitative measurements of 40 nuclides ranging from 144Sm to 188Os were performed using the atom probe tomography (APT) technique. The measured concentrations of transmutation elements are in good agreement with those of neutronic calculations. The APT analysis also revealed clusters of transmutation elements. Due to low irradiation temperature (
ISSN:2352-1791
2352-1791
DOI:10.1016/j.nme.2024.101757