Surface hardening induced by high flux plasma in tungsten revealed by nano-indentation

Terentyev D.; Bakaeva A.; Pardoen T.; Favache A.; Zhurkin E. E.

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Surface hardening induced by high flux plasma in tungsten revealed by nano-indentation

机译：纳米压痕揭示钨中高通量等离子体诱导的表面硬化

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Surface hardness of tungsten after high flux deuterium plasma exposure has been characterized by nanoindentation. The effect of plasma exposure was rationalized on the basis of available theoretical models. Resistance to plastic penetration is enhanced within the 100 nm sub-surface region, attributed to the pinning of geometrically necessary dislocations on nanometric deuterium cavities e signature of plasma-induced defects and deuterium retention. Sub-surface extension of thereby registered plasma-induced damage is in excellent agreement with the results of alternative measurements. The study demonstrates suitability of nano-indentation to probe the impact of deposition of plasma-induced defects in tungsten on near surface plasticity under ITER-relevant plasma exposure conditions. (C) 2016 Elsevier B.V. All rights reserved.

机译：高通量氘等离子体暴露后钨的表面硬度已通过纳米压痕表征。在可用的理论模型的基础上，合理化了等离子体暴露的影响。在100 nm的次表面区域内，增强的抗塑料渗透性的原因在于，将几何上必要的位错钉扎在了纳米级氘腔上，以及等离子体诱导的缺陷和氘保留的特征。由此记录的等离子体诱发的损伤的亚表面扩展与替代测量的结果极好一致。这项研究表明，纳米压痕技术适用于在ITER相关的等离子体暴露条件下探测钨中的等离子体诱导的缺陷沉积对近表面塑性的影响。（C）2016 Elsevier B.V.保留所有权利。

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《Journal of Nuclear Materials: Materials Aspects of Fission and Fusion》 |2016年第null期|共4页
作者
Terentyev D.; Bakaeva A.; Pardoen T.; Favache A.; Zhurkin E. E.;
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正文语种 eng
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Dislocations; Tungsten; Hydrogen; Embrittlement;

机译：脱位;钨;氢;渗析;

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2. 用纳米压痕法表征钨纳米晶须的力学性能 [J] . Li-zhen HOU, Shi-liang WANG, Guo-Liang CHEN, 中国有色金属学报：英文版 . 2013,第008期
3. Surface hardening induced by high flux plasma in tungsten revealed by nano-indentation [J] . Terentyev D., Bakaeva A., Pardoen T., Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2016,第Null期

机译：纳米压痕揭示钨中高通量等离子体诱导的表面硬化
4. Irradiation hardening induced by blistering in tungsten due to low-energy high flux hydrogen plasma exposure [J] . Chen W. Q., Xiao X. Z., Pang B., Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2019,第期

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5. Strong sub-surface plastic deformation induced by high flux plasma in tungsten [J] . Terentyev D., Dubinko A., Bakaeva A., Fusion Engineering and Design . 2017,第nova期

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6. Surface Modification and Deuterium Retention in Tungsten and Molybdenum Exposed to Low-Energy, High Flux Deuterium Plasmas [C] . V. Kh. Alimov, W. M. Shu, J. Roth, International Conference on New Materials for Extreme Environments . 2009

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Surface hardening induced by high flux plasma in tungsten revealed by nano-indentation

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