Simulation study of material mixing process on tungsten surfaces at elevated temperatures due to boundary plasma exposure and its influence on plasma wall interactions-Reference-Cited by-同舟云学术

Simulation study of material mixing process on tungsten surfaces at elevated temperatures due to boundary plasma exposure and its influence on plasma wall interactions

Published:2003-03 Issue: Volume:313-316 Page:107-111
ISSN:0022-3115
Container-title:Journal of Nuclear Materials
language:en
Short-container-title:Journal of Nuclear Materials

Author:

Kawakami R.,Ohya K.

Publisher

Elsevier BV

Subject

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

Reference17 articles.

1. Mixed-material coating formation on tungsten surfaces during plasma exposure in TEXTOR-94

2. Simulation study of carbon and tungsten deposition on W/C twin test limiter in TEXTOR-94

3. Comparison of impurity production, recycling and power deposition on carbon and tungsten limiters in TEXTOR-94

4. Graphite–tungsten twin limiters in studies of material mixing processes on high heat flux components

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1. Deuterium retention in tungsten exposed to low-energy, high-flux clean and carbon-seeded deuterium plasmas;Journal of Nuclear Materials;2008-04

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3. Simulation study of carbon impurity dynamics on tungsten surfaces exposed to hydrogen ions;Journal of Nuclear Materials;2006-02

4. Simulation study on influence of chemically eroded higher hydrocarbons on SOL impurity transport and effect of dynamical material mixing on erosion/deposition of tungsten surfaces exposed to boundary plasmas;Journal of Nuclear Materials;2005-03

5. Simulation Study on Influence of Chemically Eroded Carbon Impurity Transport on Net Sputtering Erosion of Carbon Materials Exposed to Edge Fusion Plasmas;Japanese Journal of Applied Physics;2005-02-08