Trapping and depth profile of tritium in surface layers of metallic materials

M. Matsuyama; Z. Chen; K. Nisimura; S. Akamaru; Y. Torikai; Y. Hatano; N. Ashikawa; Y. Oya; K. Okuno; T. Hino

doi:10.1016/j.jnucmat.2011.04.005

Trapping and depth profile of tritium in surface layers of metallic materials

M. Matsuyama^*, Z. Chen, K. Nisimura, S. Akamaru, Y. Torikai, Y. Hatano, N. Ashikawa, Y. Oya, K. Okuno, T. Hino

^*Corresponding author for this work

Hydrogen Isotope Research Center, Organization for Promotion of Research

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Tritium amount retained in surface layers and release behavior from surface layers were examined using SS316L samples exposed to plasmas in the Large Helical Device and a commercial Cu-Be alloy plate. BIXS analyses and observation by SEM indicate that carbon and titanium deposited on the plasma-facing surface of the SS316L samples. Larger amount of tritium was trapped in the plasma-facing surface in comparison with the polished surface. Higher enrichment of tritium in surface layers was similarly found in the polished surface of both samples. The amount of surface tritium in both samples was almost same, while the bulk concentration of tritium in Cu-Be was much lower than that in SS316L. Tritium release from the SS316L and Cu-Be samples into water was examined by immersion experiments. Tritium elution was observed for both samples, but changes in the residual tritium amount in surface layers were different from each other.

Original language	English
Pages (from-to)	900-903
Number of pages	4
Journal	Journal of Nuclear Materials
Volume	417
Issue number	1-3
DOIs	https://doi.org/10.1016/j.jnucmat.2011.04.005
State	Published - 2011/10/01

ASJC Scopus subject areas

Nuclear and High Energy Physics
General Materials Science
Nuclear Energy and Engineering

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10.1016/j.jnucmat.2011.04.005

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title = "Trapping and depth profile of tritium in surface layers of metallic materials",

abstract = "Tritium amount retained in surface layers and release behavior from surface layers were examined using SS316L samples exposed to plasmas in the Large Helical Device and a commercial Cu-Be alloy plate. BIXS analyses and observation by SEM indicate that carbon and titanium deposited on the plasma-facing surface of the SS316L samples. Larger amount of tritium was trapped in the plasma-facing surface in comparison with the polished surface. Higher enrichment of tritium in surface layers was similarly found in the polished surface of both samples. The amount of surface tritium in both samples was almost same, while the bulk concentration of tritium in Cu-Be was much lower than that in SS316L. Tritium release from the SS316L and Cu-Be samples into water was examined by immersion experiments. Tritium elution was observed for both samples, but changes in the residual tritium amount in surface layers were different from each other.",

author = "M. Matsuyama and Z. Chen and K. Nisimura and S. Akamaru and Y. Torikai and Y. Hatano and N. Ashikawa and Y. Oya and K. Okuno and T. Hino",

note = "Funding Information: Present study was partly supported by the NIFS LHD Project Research Collaboration (NIFS07KOBS009), and the Grant-in-Aid for Scientific Research of the Ministry of Education, Culture, Sports, Science and Technology.",

year = "2011",

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doi = "10.1016/j.jnucmat.2011.04.005",

language = "英語",

volume = "417",

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TY - JOUR

T1 - Trapping and depth profile of tritium in surface layers of metallic materials

AU - Matsuyama, M.

AU - Chen, Z.

AU - Nisimura, K.

AU - Akamaru, S.

AU - Torikai, Y.

AU - Hatano, Y.

AU - Ashikawa, N.

AU - Oya, Y.

AU - Okuno, K.

AU - Hino, T.

N1 - Funding Information: Present study was partly supported by the NIFS LHD Project Research Collaboration (NIFS07KOBS009), and the Grant-in-Aid for Scientific Research of the Ministry of Education, Culture, Sports, Science and Technology.

PY - 2011/10/1

Y1 - 2011/10/1

N2 - Tritium amount retained in surface layers and release behavior from surface layers were examined using SS316L samples exposed to plasmas in the Large Helical Device and a commercial Cu-Be alloy plate. BIXS analyses and observation by SEM indicate that carbon and titanium deposited on the plasma-facing surface of the SS316L samples. Larger amount of tritium was trapped in the plasma-facing surface in comparison with the polished surface. Higher enrichment of tritium in surface layers was similarly found in the polished surface of both samples. The amount of surface tritium in both samples was almost same, while the bulk concentration of tritium in Cu-Be was much lower than that in SS316L. Tritium release from the SS316L and Cu-Be samples into water was examined by immersion experiments. Tritium elution was observed for both samples, but changes in the residual tritium amount in surface layers were different from each other.

AB - Tritium amount retained in surface layers and release behavior from surface layers were examined using SS316L samples exposed to plasmas in the Large Helical Device and a commercial Cu-Be alloy plate. BIXS analyses and observation by SEM indicate that carbon and titanium deposited on the plasma-facing surface of the SS316L samples. Larger amount of tritium was trapped in the plasma-facing surface in comparison with the polished surface. Higher enrichment of tritium in surface layers was similarly found in the polished surface of both samples. The amount of surface tritium in both samples was almost same, while the bulk concentration of tritium in Cu-Be was much lower than that in SS316L. Tritium release from the SS316L and Cu-Be samples into water was examined by immersion experiments. Tritium elution was observed for both samples, but changes in the residual tritium amount in surface layers were different from each other.

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DO - 10.1016/j.jnucmat.2011.04.005

M3 - 学術論文

AN - SCOPUS:80053577147

SN - 0022-3115

VL - 417

SP - 900

EP - 903

JO - Journal of Nuclear Materials

JF - Journal of Nuclear Materials

IS - 1-3

ER -

Trapping and depth profile of tritium in surface layers of metallic materials

Abstract

ASJC Scopus subject areas

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