In-situ TEM observation of dynamic interaction between dislocation and cavity in BCC metals in tensile deformation

Tougou Kouichi; Shikata Akihito; Kawase Uchu; Onitsuka Takashi; Fukumoto Ken-ichi

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In-situ TEM observation of dynamic interaction between dislocation and cavity in BCC metals in tensile deformation

机译：拉伸变形中BCC金属中位错与空穴之间动态相互作用的原位TEM观察

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To investigate the effect of irradiation hardening of structural materials due to cavity formation in BCC metals for nuclear applications, an in-situ transmission electron microscopy (TEM) observation in tensile test was performed for the helium ion-irradiated specimens of pure molybdenum and pure iron. The obstacle barrier strength, a was calculated from the bow-out dislocation based on line tension model, and the obstacle barrier strengths of cavity in pure molybdenum and pure iron were about 0.5-0.7. The fractions of cross-slip generation of dislocation of screw type due to interaction with the cavities were about 16-18 % for pure molybdenum. (C) 2015 Elsevier B.V. All rights reserved.

机译：为了研究用于核应用的BCC金属中由于空腔形成而导致的结构材料的辐射硬化的影响，对纯钼和纯铁的氦离子辐照样品进行了拉伸试验中的原位透射电子显微镜（TEM）观察。根据线张力模型，通过弯曲脱位计算出障碍物阻挡强度a，而纯钼和纯铁中空穴的障碍物阻挡强度约为0.5-0.7。对于纯钼，由于与型腔的相互作用而产生的错位的十字滑移产生的比例约为16-18％。（C）2015 Elsevier B.V.保留所有权利。

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《Journal of Nuclear Materials: Materials Aspects of Fission and Fusion》 |2015年第null期|共6页
作者
Tougou Kouichi; Shikata Akihito; Kawase Uchu; Onitsuka Takashi; Fukumoto Ken-ichi;
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正文语种 eng
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Dislocation; In-situ transmission electron microscope observation; Cavity; Irradiation hardening; Obstacle barrier strength; Cross-slip; Line tension force;

机译：位错;原位透射电镜观察;腔;辐照硬化;障碍物强度;十字滑移;线张力;

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1. In-situ TEM observation of dynamic interaction between dislocation and cavity in BCC metals in tensile deformation [J] . Tougou Kouichi, Shikata Akihito, Kawase Uchu, Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2015,第Null期

机译：拉伸变形中BCC金属中位错与空穴之间动态相互作用的原位TEM观察
2. Dynamic observations on TEM in-situ tensile deformation of Mn8 steel [J] . ZHU Ruifu, LI Shitong, WEI Tao, Chinese science bulletin . 1996,第23期

机译：Mn8钢的TEM原位拉伸变形的动态观察
3. Dynamic observations on TEM in-situ tensile deformation of Mn8 steel [J] . ZHU Ruifu, LI Shitong, WEI Tao, Chinese science bulletin . 1996,第23期

机译：Mn8钢的TEM原位拉伸变形的动态观察
4. Dynamic observations of in-situ tensile deformation for medium manganese austenitic steel [C] . Zhu Ruifu, Lu Yupeng, Li Shitong, Congress of the International Federation for Heat Treatment and Surface Engineering . 1999

机译：中锰奥氏体钢原位拉伸变形的动态观察
5. In-situ scanning electron microscopy (sem) observations of the tensile and tensile-creep deformation of Titanium-8Aluminum-1mo-1v (wt.%) alloy. [D] . Ghosh Dastidar, Indraroop. 2014

机译：原位扫描电子显微镜（sem）观察Titanium-8Aluminum-1mo-1v（wt。％）合金的拉伸和拉伸蠕变变形。
6. Dislocation driven nanosample plasticity: new insights from quantitative in-situ TEM tensile testing [O] . Vahid Samaee, Riccardo Gatti, Benoit Devincre, -1

机译：位错驱动的纳米样品可塑性：定量原位TEM拉伸测试的新见解
7. In-Situ Tensile Observation of Deformation Twin in TWIP Steel Using TEM [O] . S-I Baik, T-Y Ahn, W-P Hong, 2009

机译：使用TEM的旋转钢变形双胞胎的原位拉伸观察

In-situ TEM observation of dynamic interaction between dislocation and cavity in BCC metals in tensile deformation

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