Solidification Behavior of Iron-Niobium and Iron-Carbon-Niobium Alloys

机译：铁 - 铌和铁 - 碳铌合金的凝固行为

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

The undercooling and solidified structure of Fe-Nb binary alloys and Fe-0.1mass percent C-Nb ternary alloys were investigated by changing Nb concentration from 0.5 to 6mass percent. A glass-encased method was used for achieving high undercooling, in addition to a conventional solidification method. The specimen was furnace-cooled followed by quenching from 1723K or air-cooling from 1473K. As a result, the degree of undercooling in the Fe-Nb alloys solidified by the glass-encased method was higher than that in the specimen solidified by the conventional method, while that in the Fe-0.1mass percent C-Nb alloy solidified by the glass-encased method was not so high. The solidified structure in all alloys that were quenched at gamma formation temperature has dendritic morphology in spite of delta /gamma transformation. The secondary arm spacing of the dendrite became fine with increase in niobium concentration.

机译：通过将Nb浓度从0.5至6mass改变为0.5至6mass来研究Fe-Nb二元合金和Fe-0.1mass百分比C-NB三元合金的过冷和凝固结构。除了传统的凝固方法之外，还用于实现高过冷却的玻璃包封的方法。试样是炉冷却，然后从1723K或1473K淬火。结果，通过玻璃包封法固化的Fe-NB合金中过冷的程度高于通过常规方法固化的样品中的，而在Fe-0.1mass百分比的C-NB合金中凝固玻璃包裹的方法并不那么高。尽管Delta /γ转化，但在γ形成温度下淬火的所有合金中的固化结构具有树突状形态。枝晶的次级臂间距随着铌浓度的增加而变得精细。

著录项

来源
《Pacific Rim International Conference on Advanced Materials and Processing》|2005年||共4页
会议地点
作者
Masayuki Kudoh; Masataka Tezuka; Kiyotaka Matsuura;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类工程材料一般性问题;
关键词
iron-niobium alloy; iron-carbon-niobium alloy; undercooling; delta/gamma transformation; secondary dendrite arm spacing; glass-encased method;

机译：铁 - 铌合金;铁 - 碳铌合金;过冷;Delta / Gamma转化;次级树枝状臂间距;玻璃包装方法;

相似文献

外文文献
中文文献
专利

1. Characterization of the boron layer formed by pack boronizing of binary iron-niobium alloys [J] . Teker Tanju, Karakurt Eyyup Murat Materialpruefung: Werkstoffe und Bauteile, Forschung Prufung Anwendung . 2019,第9期

机译：用二元铁 - 铌合金包装硼化硼层的表征
2. Mixing enthalpy and heat content measurements of liquid binary iron-niobium alloys [J] . Klaus Schaefers, Michael Rosner-Kuhn, Jianping Qin Steel Research . 1995,第5期

机译：液态二元铁铌合金的混合焓和热含量测量
3. Effect of Cladding Conditions on Solidification Cracking Behavior during Dissimilar Cladding of Inconel Alloy FM 52 and 308L Stainless Steel to Carbon Steel: Evaluation of Solidification Brittle Temperature Range by Transverse-Varestraint Test [J] . Journal of Korean Institute of Metal and Materials . 2020,第6期

机译：包覆条件对Inclical合金FM 52和308L不锈钢与碳钢的不同包层凝固裂解行为的影响：横向紫花率试验评价凝固脆性温度范围
4. Solidification Behavior of Iron-Niobium and Iron-Carbon-Niobium Alloys [C] . Masayuki Kudoh, Masataka Tezuka, Kiyotaka Matsuura Pacific Rim International Conference on Advanced Materials and Processing . 2005

机译：铁 - 铌和铁 - 碳铌合金的凝固行为
5. Finite-difference - cellular automaton modeling of the evolution of interface morphology during alloy solidification under geometrical constraint: Application to metal matrix composite solidification. [D] . Napolitano, Ralph Edward, Jr. 1996

机译：几何约束下合金凝固过程中界面形态演化的有限差分-元胞自动机建模：在金属基复合材料凝固中的应用。
6. The Directional Solidification Microstructural Characterization and Deformation Behavior of β-Solidifying TiAl Alloy [O] . Ning Cui, Qianqian Wu, Jin Wang, 2019

机译：β固溶TiAl合金的定向凝固显微组织表征和变形行为
7. Solidification Behavior of Iron-Niobium and Iron-Carbon-Niobium alloys [O] . Kudoh, Masayuki, Tezuka, Masataka, Matsuura, Kiyotaka 2005

机译：铁-铌和铁-碳-铌合金的凝固行为
8. Solidification Behavior of gamma'-Ni3Al Containing Alloys in the Ni-Al-O System [R] . Copland, Evan 2007

机译：含γ'-Ni3al合金在Ni-al-O体系中的凝固行为

Solidification Behavior of Iron-Niobium and Iron-Carbon-Niobium Alloys

摘要

著录项

相似文献

相关主题

期刊订阅