：Kinetic Monte Carlo code development and application on the formation of hydrogen-vacancy clusters in tungsten论文

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作者（2019）在《Kinetic Monte Carlo code development and application on the formation of hydrogen-vacancy clusters in tungsten》一文中研究指出：We have developed an object kinetic Monte Carlo（OKMC）code and simulated hydrogen-vacancy clustering behavior and dependence on temperature and hydrogen-vacancy ratio in tungsten.For each of the temperatures we simulated from 300 K to1000 K,HnV clusters with smaller n form before those with larger n.The elevating temperature leads to a decrease in hydrogen vacancies:H10V and H9V clusters dominate at 300 K and 600 K,whereas H5V,H6V,and H7V clusters dominate when the temperature reaches 1000 K.Furthermore,only HnV clusters with smaller n formed when a lower hydrogen-vacancy ratio was used due to insufficient availability of hydrogen atoms to occupy vacancies.The results suggest hydrogen emission occurs very rarely at lower temperatures,while higher temperatures facilitate the dissociation of hydrogen from HnV clusters.

Abstract

We have developed an object kinetic Monte Carlo（OKMC）code and simulated hydrogen-vacancy clustering behavior and dependence on temperature and hydrogen-vacancy ratio in tungsten.For each of the temperatures we simulated from 300 K to1000 K,HnV clusters with smaller n form before those with larger n.The elevating temperature leads to a decrease in hydrogen vacancies:H10V and H9V clusters dominate at 300 K and 600 K,whereas H5V,H6V,and H7V clusters dominate when the temperature reaches 1000 K.Furthermore,only HnV clusters with smaller n formed when a lower hydrogen-vacancy ratio was used due to insufficient availability of hydrogen atoms to occupy vacancies.The results suggest hydrogen emission occurs very rarely at lower temperatures,while higher temperatures facilitate the dissociation of hydrogen from HnV clusters.

论文参考文献

[1].First-principles studies on carbon diffusion in tungsten[J]. 宋驰,孔祥山,刘长松. Chinese Physics B.2019(11)

[2].Tensile properties of tungsten-rhenium wires with nanofibrous structure[J]. Na-na Qiu,Yin Zhang,Cheng Zhang,Huan Tong,Xi-ping Song. International Journal of Minerals Metallurgy and Materials.2018(09)

[3].Experiments and analysis of thin tungsten slice and W/Cu brazing for primary collimator scraper in CSNS/RCS[J]. ZOU YiQing,KANG Ling,YU JieBing,QU HuaMin,HE ZheXi. Science China(Physics,Mechanics & Astronomy).2014(04)

[4].Molecular dynamics study of thermal stress and heat propagation in tungsten under thermal shock[J]. 付宝勤,赖文生,袁悦,徐海燕,李纯,贾玉振,刘伟. Chinese Physics B.2013(12)

[5].A Study of the Isothermal Section in the W-Fe-Co Ternary System at 1380K[J]. 甘卫平,金展鹏. Journal of Materials Science & Technology.1989(04)

[6].A Novel Method for Separation of Tungsten and Molybdenum[J]. Jiang Anren Pang Zhen Jiang Weizhong Department of Chemistry,Fudan University,Shanghai. Rare Metals.1989(03)

[7].New Developments of Tungsten Technology in China[J]. Zuo Tieyong Zhao Qinsheng Li Songren Wang Jiuru Central South University of Technology,Changsha,China. Rare Metals.1989(03)

[8].METASTABLE CHARACTERISTICS OF β-W[J]. HUANG Huimin CHEN Xinmin Central South University of Technology,Changsha,China HUANG Huimin Associate Professor,Department of Chemistry,Central South University of Technology,Changsha,China. Acta Metallurgica Sinica(English Edition).1989(09)

[9].Effect of process parameters on induction plasma reactive deposition of tungsten carbide from tungsten metal powder[J]. 蒋显亮. Transactions of Nonferrous Metals Society of China.2001(05)

[10].Reduction Process of Blue Tungsten Oxide and its Microcomputer Process Control[J]. Yang Zhangyuan;Shu Daixuan;Zhang Hezhen;Zhang Wanwu Computer Chemistry Laboratory. Institute of Chemical Metallurgy,Academia Sinica,P. O. Box 353, Beijing 100080, China. Rare Metals.1990(02)

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：Kinetic Monte Carlo code development and application on the formation of hydrogen-vacancy clusters in tungsten论文

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