Plastic deformation of directionally solidified ingots of binary and some ternary MoSi2/Mo5Si3 eutectic composites

机译：二元和三元MoSi2 / Mo5Si3共晶复合材料定向凝固铸锭的塑性变形

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The high-temperature mechanical properties of directionally solidified (DS) ingots of binary and some ternary MoSi2/Mo5Si3 eutectic composites with a script lamellar structure have been investigated as a function of loading axis orientation and growth rate in a temperature range from 900 to 1500°C. These DS ingots are plastically deformed above 1000 and 1100 °C when the compression axis orientations are parallel to [1

\bar{1}

0]MoSi2 (nearly parallel to the growth direction) and [001]MoSi2, respectively. [1

\bar{1}

0]MoSi2-oriented DS eutectic composites are strengthened so much by forming a script lamellar microstructure and they exhibit yield stress values several times higher than those of MoSi2 single crystals of the corresponding orientation. The yield stress values increase with the decrease in the average thickness of MoSi2 phase in the script lamellar structure, indicating that microstructure refinement is effective in obtaining better high-temperature strength of these DS eutectic composites. Among the four ternary alloying elements tested (V, Nb, Ta and W), Ta is found to be the most effective in obtaining higher yield strength at 1400 °C.

机译：研究了具有脚本层状结构的二元和一些三元MoSi2 / Mo5Si3共晶复合材料的定向凝固（DS）铸锭的高温力学性能，其在900至1500°的温度范围内随载荷轴取向和生长速率的变化而变化C。当压缩轴方向平行于[1

1？0] MoSi2（几乎平行于生长方向）和[001] MoSi2，分别。 [1 <数学xmlns：mml =“ http://www.w3.org/1998/Math/MathML” id =“ M2”溢出=“ scroll”> <移动器>1¯0] MoSi2定向DS共晶复合材料通过形成脚本层状微结构得到了极大的增强，并且其屈服应力值比相应取向的MoSi2单晶高出数倍。 。屈服应力值随脚本层状结构中MoSi2相平均厚度的减小而增加，表明微观结构的细化有效地获得了这些DS共晶复合材料的更好的高温强度。在测试的四种三元合金元素（V，Nb，Ta和W）中，发现Ta在1400°C下获得更高的屈服强度最有效。

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期刊名称 Science and Technology of Advanced Materials
作者
Hirotaka Matsunoshita; Yuta Sasai; Kosuke Fujiwara; Kyosuke Kishida; Haruyuki Inui;
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作者单位

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年(卷),期 2016(17),1
年度 2016
页码 517–529
总页数 13
原文格式 PDF
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关键词
Transition-metal silicides microstructure mechanical properties high-temperature deformation;

机译：过渡金属硅化物;显微组织;力学性能;高温变形;

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1. Plastic deformation of directionally solidified ingots of binary and some ternary MoSi₂/Mo₅Si₃ eutectic composites [J] . Hirotaka Matsunoshita, Yuta Sasai, Kosuke Fujiwara, Science and technology of advanced materials . 2016,第1期

机译：二元和三元MoSi _{2 / Mo _{5 Si _{3 共晶复合材料定向凝固铸锭的塑性变形}}}
2. Pattern formation mechanism of directionally-solidified MoSi2/Mo5Si3 eutectic by phase-field simulation [J] . Zhu Chuanqi, Koizumi Yuichiro, Chiba Akihiko, Intermetallics . 2020,第期

机译：通过相场模拟定向凝固MOSI2 / MO5SI3共晶的图案形成机理
3. Orientation relationships, interface structures, and mechanical properties of directionally solidified MoSi2/Mo5Si3/Mo5Si3C composites [J] . Matsunoshita Hirotaka, Fujiwara Kosuke, Sasai Yuta, Intermetallics . 2016,第Null期

机译：定向凝固的MoSi2 / Mo5Si3 / Mo5Si3C复合材料的取向关系，界面结构和力学性能
4. (P114-P0055)Pattern Formation Mechanism of Directionally-Solidified MoSi2/Mo5Si3 Eutectic by Phase Field Simulation [C] . Chuanqi ZHU, Koizumi YUICHIRO, Akihiko CHIBA 日本金属学会春期大会 . 2019

机译：（P114-P0055）通过相场仿真进行定向固化MOSI2 / MO5SI3共晶的图案形成机理
5. Nanoscale mechanics of ductile interphases in solid solution directionally solidified eutectic composites. [D] . Alem, Nasim. 2007

机译：固溶体定向凝固共晶复合材料中延性相的纳米尺度力学。
6. 3D Viscoplastic Finite Element Modeling of Dislocation Generation in a Large Size Si Ingot of the Directional Solidification Stage [O] . Maohua Lin, Xinjiang Wu, Xinqin Liao, 2019

机译：定向凝固阶段大尺寸硅锭中位错生成的3D粘塑性有限元建模
7. Effects of ternary additions on the microstructure and thermal stability of directionally-solidified MoSi2/Mo5Si3 eutectic composites [O] . Fujiwara Kosuke, Matsunoshita Hirotaka, Sasai Yuta, 2014

机译：三元添加对定向凝固MoSi2 / Mo5Si3共晶复合材料的组织和热稳定性的影响

Plastic deformation of directionally solidified ingots of binary and some ternary MoSi2/Mo5Si3 eutectic composites

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