Lattice Reorientation in the Shear Bands of {112}〈131〉 Crystallites in an Fe–3%Si Alloy

G. M. Rusakov; M. L. Lobanov; A. A. Redikul’tsev

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Lattice Reorientation in the Shear Bands of {112}〈131〉 Crystallites in an Fe–3%Si Alloy

机译：Fe–3％Si合金中{112} 〈131〉微晶的剪切带中的晶格取向

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Subregions (0.1 μm) with the {110}〈113〉 orientation form in shear bands in grains with the {112}〈131〉 orientation in a deformed (ε ≈ 50%) polycrystalline Fe–3%Si alloy sample. The relationship between the matrix and the subregions in the shear bands is described by a special misorientation close to Σ5. It is assumed that the subregions that have a {110}〈hhl〉 orientation and special misorientation Σ5 with the surrounding matrix and form in the shear bands of crystallites with orientations other than {111}〈112〉 can serve as anomalous growth nuclei during heat treatment because of a high density of special Σ5 boundaries.

机译：在变形（ε≈50％）多晶Fe-3％Si合金样品中，具有{110} <113>取向的子区域（0.1μm）在剪切带中形成具有{112} <131>取向的晶粒。剪切带中的矩阵与子区域之间的关系由接近Σ5的特殊取向错误描述。假设具有{110} 〈hhl〉取向和与周围基体的特殊取向差Σ5且在除{111} 〈112〉以外的取向的微晶剪切带中形成的子区域可以用作加热期间的异常生长核由于特殊的Σ5边界的密度很高，因此需要进行处理。

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《Technical physics》 |2014年第8期|共3页
作者
G. M. Rusakov; M. L. Lobanov; A. A. Redikul’tsev;
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正文语种 eng
中图分类 Tb13;
关键词
Subregions; between; matrix;

机译：子区域;之间;矩阵;

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1. Lattice Reorientation in the Shear Bands of {112}〈131〉 Crystallites in an Fe–3%Si Alloy [J] . G. M. Rusakov, M. L. Lobanov, A. A. Redikul’tsev Technical physics . 2014,第8期

机译：Fe–3％Si合金中{112} 〈131〉微晶的剪切带中的晶格取向
2. The effect of contraction twins and shear bands on the texture evolution during isothermal annealing and its effect on mechanical properties of AZ31 magnesium alloys [J] . Peng Jinhua, Zhang Zhen, Guo Peng, Materials Science and Engineering . 2019,第AUGa19期

机译：收缩孪晶和剪切带对等温退火过程中织构演变的影响及其对AZ31镁合金力学性能的影响
3. The effect of cold rolling reduction on shear band and texture formation in Fe-3%Si alloy [J] . K. Murakami, N. Morishige, K. Ushioda Materials science forum . 2012,第期

机译：冷轧压下率对Fe-3％Si合金剪切带和织构的影响
4. A comparative assessment of crystallite size and lattice strain in differently cast A356 aluminium alloy [C] . S K Mishra, H Roy, A K Lobar National Conference on Processing and Characterization of Materials . 2015

机译：不同铸造A356铝合金微晶尺寸和晶格菌株的比较评价
5. Effect of void damage and shear band development on the bendability of AA6111 automotive aluminum alloy sheet. [D] . Lievers, William Brent. 2001

机译：空隙损伤和剪切带发展对AA6111汽车铝合金板弯曲性的影响。
6. Nanoindentation and Microstructure in the Shear Band in a Near Beta Titanium Alloy Ti-5Al-5Mo-5V-1Cr-1Fe [O] . Bingfeng Wang, Xu Ding, Ying Mao, 2019

机译：近β钛合金Ti-5Al-5Mo-5V-1Cr-1Fe的剪切带中的纳米压痕和显微组织
7. Role of shear bands in annealing texture formation in 3Si-Fe(111)112 single crystals. [O] . Kohsaku Ushioda, W. B. Hutchinson 1989

机译：剪切带在3％Si-Fe（111）中的退火纹理形成中的作用112单晶。

Lattice Reorientation in the Shear Bands of {112}〈131〉 Crystallites in an Fe–3%Si Alloy

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