Timely and atomic-resolved high-temperature mechanical investigation of ductile fracture and atomistic mechanisms of tungsten

Timely and atomic-resolved high-temperature mechanical investigation of ductile fracture and atomistic mechanisms of tungsten

High-temperature deformation of materials is challenging to evaluate. Here the authors develop a novel device that allows atomic resolved in situ high temperature mechanical tests inside a transmission electron microscope and reveal ductile fracture of a single crystal tungsten deformed at 973 K.

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Autores principales: Jianfei Zhang, Yurong Li, Xiaochen Li, Yadi Zhai, Qing Zhang, Dongfeng Ma, Shengcheng Mao, Qingsong Deng, Zhipeng Li, Xueqiao Li, Xiaodong Wang, Yinong Liu, Ze Zhang, Xiaodong Han
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/c545aa28cc3f4b359a83c74006bc9b95
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spelling oai:doaj.org-article:c545aa28cc3f4b359a83c74006bc9b952021-12-02T15:51:06ZTimely and atomic-resolved high-temperature mechanical investigation of ductile fracture and atomistic mechanisms of tungsten10.1038/s41467-021-22447-y2041-1723https://doaj.org/article/c545aa28cc3f4b359a83c74006bc9b952021-04-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-22447-yhttps://doaj.org/toc/2041-1723High-temperature deformation of materials is challenging to evaluate. Here the authors develop a novel device that allows atomic resolved in situ high temperature mechanical tests inside a transmission electron microscope and reveal ductile fracture of a single crystal tungsten deformed at 973 K.Jianfei ZhangYurong LiXiaochen LiYadi ZhaiQing ZhangDongfeng MaShengcheng MaoQingsong DengZhipeng LiXueqiao LiXiaodong WangYinong LiuZe ZhangXiaodong HanNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-10 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Jianfei Zhang
Yurong Li
Xiaochen Li
Yadi Zhai
Qing Zhang
Dongfeng Ma
Shengcheng Mao
Qingsong Deng
Zhipeng Li
Xueqiao Li
Xiaodong Wang
Yinong Liu
Ze Zhang
Xiaodong Han
Timely and atomic-resolved high-temperature mechanical investigation of ductile fracture and atomistic mechanisms of tungsten
description High-temperature deformation of materials is challenging to evaluate. Here the authors develop a novel device that allows atomic resolved in situ high temperature mechanical tests inside a transmission electron microscope and reveal ductile fracture of a single crystal tungsten deformed at 973 K.
format article
author Jianfei Zhang
Yurong Li
Xiaochen Li
Yadi Zhai
Qing Zhang
Dongfeng Ma
Shengcheng Mao
Qingsong Deng
Zhipeng Li
Xueqiao Li
Xiaodong Wang
Yinong Liu
Ze Zhang
Xiaodong Han
author_facet Jianfei Zhang
Yurong Li
Xiaochen Li
Yadi Zhai
Qing Zhang
Dongfeng Ma
Shengcheng Mao
Qingsong Deng
Zhipeng Li
Xueqiao Li
Xiaodong Wang
Yinong Liu
Ze Zhang
Xiaodong Han
author_sort Jianfei Zhang
title Timely and atomic-resolved high-temperature mechanical investigation of ductile fracture and atomistic mechanisms of tungsten
title_short Timely and atomic-resolved high-temperature mechanical investigation of ductile fracture and atomistic mechanisms of tungsten
title_full Timely and atomic-resolved high-temperature mechanical investigation of ductile fracture and atomistic mechanisms of tungsten
title_fullStr Timely and atomic-resolved high-temperature mechanical investigation of ductile fracture and atomistic mechanisms of tungsten
title_full_unstemmed Timely and atomic-resolved high-temperature mechanical investigation of ductile fracture and atomistic mechanisms of tungsten
title_sort timely and atomic-resolved high-temperature mechanical investigation of ductile fracture and atomistic mechanisms of tungsten
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/c545aa28cc3f4b359a83c74006bc9b95
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AT yurongli timelyandatomicresolvedhightemperaturemechanicalinvestigationofductilefractureandatomisticmechanismsoftungsten
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