Hydrogen retention in deposition layers formed from type 316 stainless steel

Y. Uchida; K. Katayama; T. Okamura; K. Imaoka; M. Nishikawa; S. Fukada

doi:10.13182/FST08-A1874

Hydrogen retention in deposition layers formed from type 316 stainless steel

Y. Uchida, K. Katayama, T. Okamura, K. Imaoka, M. Nishikawa, S. Fukada

Engineering Science for Advanced energy system

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

4 Citations (Scopus)

Abstract

From the viewpoints of plasma control and radiation safety, tritium retention in deposition layers is an important problem. In this study, deposition layers from type 316 stainless steel were formed by a sputtering method using hydrogen RF plasma at three different temperatures. The behavior of hydrogen release from the deposition layers was observed by a thermal desorption method at argon atmosphere. It was found that hydrogen retention and release behavior greatly change depending on the temperature of a substrate where the layer is formed. The surface structure of the layer also changed depending on the temperature. However, the ratios of metallic atoms such as Fe, Cr and Ni in deposition layers were almost the same as that in type 316 stainless steel.

Original language	English
Pages (from-to)	545-548
Number of pages	4
Journal	Fusion Science and Technology
Volume	54
Issue number	2
DOIs	https://doi.org/10.13182/FST08-A1874
Publication status	Published - Aug 2008

All Science Journal Classification (ASJC) codes

Civil and Structural Engineering
Nuclear and High Energy Physics
Nuclear Energy and Engineering
Materials Science(all)
Mechanical Engineering

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10.13182/FST08-A1874

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abstract = "From the viewpoints of plasma control and radiation safety, tritium retention in deposition layers is an important problem. In this study, deposition layers from type 316 stainless steel were formed by a sputtering method using hydrogen RF plasma at three different temperatures. The behavior of hydrogen release from the deposition layers was observed by a thermal desorption method at argon atmosphere. It was found that hydrogen retention and release behavior greatly change depending on the temperature of a substrate where the layer is formed. The surface structure of the layer also changed depending on the temperature. However, the ratios of metallic atoms such as Fe, Cr and Ni in deposition layers were almost the same as that in type 316 stainless steel.",

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AU - Uchida, Y.

AU - Katayama, K.

AU - Okamura, T.

AU - Imaoka, K.

AU - Nishikawa, M.

AU - Fukada, S.

PY - 2008/8

Y1 - 2008/8

N2 - From the viewpoints of plasma control and radiation safety, tritium retention in deposition layers is an important problem. In this study, deposition layers from type 316 stainless steel were formed by a sputtering method using hydrogen RF plasma at three different temperatures. The behavior of hydrogen release from the deposition layers was observed by a thermal desorption method at argon atmosphere. It was found that hydrogen retention and release behavior greatly change depending on the temperature of a substrate where the layer is formed. The surface structure of the layer also changed depending on the temperature. However, the ratios of metallic atoms such as Fe, Cr and Ni in deposition layers were almost the same as that in type 316 stainless steel.

AB - From the viewpoints of plasma control and radiation safety, tritium retention in deposition layers is an important problem. In this study, deposition layers from type 316 stainless steel were formed by a sputtering method using hydrogen RF plasma at three different temperatures. The behavior of hydrogen release from the deposition layers was observed by a thermal desorption method at argon atmosphere. It was found that hydrogen retention and release behavior greatly change depending on the temperature of a substrate where the layer is formed. The surface structure of the layer also changed depending on the temperature. However, the ratios of metallic atoms such as Fe, Cr and Ni in deposition layers were almost the same as that in type 316 stainless steel.

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Hydrogen retention in deposition layers formed from type 316 stainless steel

Abstract

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