Reasons for Formation of Twin-Precipitates in Two Phase Stainless Steel

机译：两相不锈钢形成双沉淀物的原因

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This study focuses on the entire shape of the γ twin-precipitate in two phase stainless steel, Fe-25Cr-6Ni in terms of the interphase and elastic strain energies generated between the precipitate and matrix. An investigation of this precipitation is important not only in terms of microstructure control but also for improving the mechanical properties of materials. Firstly, the three-dimensional near-coincidence site lattice (3D-NCS) model, which is based on the atomic matching model, is applied for estimating the preferred habit planes by evaluating the result of geometrical atomic matching. Subsequently, the precipitate shape is determined from candidates of the preferred habit plane produced by the 3D-NCS model, and the elastic strain surrounding and within the precipitate is investigated by FEM analysis, which can calculate the anisotropic elastic strain depending on the shape of the precipitate. The results are compared with observed precipitate by TEM.

机译：本研究专注于两相位不锈钢中γ双沉淀的整个形状，在沉淀物和基质之间产生的相互作用和弹性应变能量方面。对这种沉淀的研究不仅重要而且很重要，而且很重要，而且还用于改善材料的力学性能。首先，通过评估几何原子匹配的结果，应用基于原子匹配模型的三维近巧的部位晶格（3D-NCS）模型来估计优选的习惯平面。随后，通过3D-NCS模型产生的优选习惯平面的候选物测定沉淀形状，并且通过有限元分析研究了周围的弹性应变和沉淀物内的弹性应变，这可以根据所示的形状计算各向异性弹性应变。沉淀。将结果与TEM观察沉淀进行比较。

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《International Conference on Processing Manufacturing of Advanced Materials》|2009年||共5页
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Naoki Miyano; Akihiro Takahashi; Seigo Kataoka; Kei Ameyama;
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中图分类 TB3-53;
关键词
Misfit dislocation; Interphase energy; Elastic energy; Invariant line; Habit plane;

机译：错过错位;相位的能量;弹性能量;不变线;习惯飞机;

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机译：铁素体单相凝固模式的Cr-Ni不锈钢焊缝金属的凝固与转变行为：Cr-Ni不锈钢焊缝金属的凝固与转变研究
2. Epitaxial growth and phase formation of austenitic stainless steel weld metals near fusion boundaries: Study of solidification and transformation of Cr-Ni stainless steel weld metals (3rd report) [J] . H. Inoue, T. Koseki, S. Okita, Welding Research Abroad . 1998,第4期

机译：奥氏体不锈钢焊接金属在熔合边界附近的外延生长和相形成：Cr-Ni不锈钢焊接金属的凝固和相变研究（第三次报告）
3. Epitaxial growth and phase formation of austenitic stainless steel weld metals near fusion boundaries: Study of solidification and transformation of Cr-Ni stainless steel weld metals (3rd Report) [J] . H. Inoue, T. Koseki Welding International . 1998,第3期

机译：熔合边界附近奥氏体不锈钢焊缝金属的外延生长和相形成：Cr-Ni不锈钢焊缝金属的凝固和相变研究（第三次报告）
4. Reasons for Formation of Twin-Precipitates in Two Phase Stainless Steel [C] . Naoki Miyano, Akihiro Takahashi, Seigo Kataoka, International conference on processing manufacturing of advanced materials;THERMEC 2009 . 2010

机译：两相不锈钢中形成双析出物的原因
5. PHASE TRANSFORMATIONS AND HEAT-TREATMENT STUDIES OF A CONTROLLED - TRANSFORMATION STAINLESS-STEEL ALLOY. [D] . AGGEN, GEORGE. 1963

机译：受控相变不锈钢合金的相变和热处理研究。
6. Micro-deformation evolutions of the constituent phases in duplex stainless steel during cyclic nanoindentation [O] . Yuan-Yuan Cui, Yun-Fei Jia, Fu-Zhen Xuan -1

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7. Effect of Massive Transformation on Formation of Acicular Structure in Austenitic Stainless Steel Weld Metal Solidified as Ferritic Single Phase. Study on Solidification and Subsequent Transformation of Cr-Ni Stainless Steel Weld Metals. (Report 5). [O] . Hiroshige INOUE, Toshihiko KOSEKI, Shigeru OHKITA, 1997

机译：大规模转化对奥氏体不锈钢焊接金属形成针状结构的影响，固化为铁素体单相。 CR-Ni不锈钢焊接金属凝固及随后转化研究。（报告5）。
8. Metallographic Observations on the Formation and Occurrence of Ferrite, sigma Phase, and Carbides in Austenitic Stainless Steels. Part I. Studies of AISI Type 310 Stainless Steel. [R] . White, W. E., Le May, I. 1969

机译：奥氏体不锈钢中铁素体，σ相和碳化物形成和发生的金相观察。第一部分aIsI 310型不锈钢的研究。

Reasons for Formation of Twin-Precipitates in Two Phase Stainless Steel

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