Synthesis of Powder Alloys Based on the Ti-Ni-Hf System via a Calcium Hydride Reduction Process

Kasimtsev A. V.; Volodko S. S.; Yudin S. N.; Sviridova T. A.; Cheverikin V. V.

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Synthesis of Powder Alloys Based on the Ti-Ni-Hf System via a Calcium Hydride Reduction Process

机译：氢化钙还原法合成基于Ti-Ni-Hf体系的粉末合金

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We have demonstrated the feasibility of preparing powder alloys based on intermetallic phases in the Ti-Ni-Hf and Ti-Ni-Hf-Zr systems by a calcium hydride reduction process and investigated the physicochemical and technological properties of Ti40Ni50Hf10, Ti28Ni50Hf22, and Ti28Ni50Hf12Zr10 powders thus prepared. Experimental data show that the synthesis of the powders typically involves the formation of intermediate phases inherent in the binary phase diagrams of the constituent components of the alloys. According to X-ray diffraction data, the synthesized powders consist predominantly of B19' martensite, whose content depends significantly on the synthesis temperature. At given process parameters, the alloy with the lowest Hf dopant concentration is the most homogeneous.

机译：我们已经证明了通过氢化钙还原工艺在Ti-Ni-Hf和Ti-Ni-Hf-Zr系统中基于金属间相制备粉末合金的可行性，并研究了Ti40Ni50Hf10，Ti28Ni50Hf22和Ti28Ni50Hf12Zr10粉末的物理化学和工艺性能如此准备。实验数据表明，粉末的合成通常涉及合金组成成分的二元相图中固有的中间相的形成。根据X射线衍射数据，合成粉末主要由B19'马氏体组成，其含量显着取决于合成温度。在给定的工艺参数下，具有最低Hf掺杂剂浓度的合金是最均匀的。

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来源
《Inorganic materials》 |2019年第5期|449-457|共9页
作者
Kasimtsev A. V.; Volodko S. S.; Yudin S. N.; Sviridova T. A.; Cheverikin V. V.;
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作者单位

OOO Metsintez, Krasnoarmeiiskii Pr 25, Tula 300041, Russia|Tula State Univ, Pr Lenina 84, Tula 300041, Russia;

OOO Metsintez, Krasnoarmeiiskii Pr 25, Tula 300041, Russia|Tula State Univ, Pr Lenina 84, Tula 300041, Russia;

OOO Metsintez, Krasnoarmeiiskii Pr 25, Tula 300041, Russia|Tula State Univ, Pr Lenina 84, Tula 300041, Russia;

Natl Univ Sci & Technol, Moscow Inst Steel & Alloys, Leninskii Pr 4, Moscow 119049, Russia;

Natl Univ Sci & Technol, Moscow Inst Steel & Alloys, Leninskii Pr 4, Moscow 119049, Russia;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
calcium hydride reduction process; high-temperature shape memory effect; metallic powders;

机译：氢化钙还原过程;高温形状记忆效果;金属粉末;

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专利

1. Synthesis of Powder Alloys Based on the Ti-Ni-Hf System via a Calcium Hydride Reduction Process [J] . Kasimtsev A. V., Volodko S. S., Yudin S. N., Inorganic materials . 2019,第5期

机译：通过氢化钙处理基于Ti-Ni-HF系统的粉末合金的合成
2. Calcium hydride synthesis of Ti–Nb-based alloy powders [J] . A. V. Kasimtsev, A. V. Shuitsev, S. N. Yudin, Russian Metallurgy(Metally) . 2017,第9期

机译：氢化钙合成Ti-Nb基合金粉末
3. Production of a sintered alloy based on the TiAl intermetallic compound. Part 1: Calcium-hydride fabrication technology of the Ti-47Al-2Nb-2Cr powder alloy and its properties [J] . Kasimtsev A. V., Yudin S. N., Sviridova T. A., Russian Journal of Non-Ferrous Metals . 2015,第5期

机译：基于TiAl金属间化合物的烧结合金的生产。第1部分：Ti-47Al-2Nb-2Cr粉末合金的氢化钙制备技术及其性能
4. Synthesis of Intermetallics Based on the Fe-Al-Si-Zn Alloy System by Magneto-Mechanical Milling of Ductile Elemental Powders [C] . K. R. Carpenter, R. Dippenaar, D. Phelan, International Conference on Processing Manufacturing of Advanced Materials . 2006

机译：基于Fe-Al-Si-Zn合金系统的磁力碾磨延性元素粉末的金属间质量合成
5. Microstructure-Property Correlation in Magnesium-based Hydrogen Storage Systems: The Case for Ball-milled Magnesium Hydride Powder and Magnesium-based Multilayered Composites. [D] . Danaie, Mohsen. 2011

机译：镁基储氢系统中的微观结构-性能关联：球磨氢化镁粉和镁基多层复合材料的情况。
6. Hydrogen-absorbing alloy-based metal-hydride actuation for application in rehabilitative systems [O] . Kyong Kim, Seong Hyun Kim, Sung Hoon Kim, -1

机译：氢吸收合金基金属氢化物致动用于修复系统
7. Producing the Sintered Alloy Based on the TiAl Intermetallic Compound. Part 1: Calcium-Hydride Fabrication Technology of the Ti–47Al–2Nb–2Cr Powder Alloy and Its Properties [O] . A. V. Kasimtsev, S. N. Yudin, T. A. Sviridova, 2015

机译：基于TiA1金属间化合物制备烧结合金。第1部分：Ti-47AL-2NB-2CR粉合金及其性能的钙 - 氢化物制造技术
8. Reduction Expansion Synthesis for Magnetic Alloy Powders. [R] . Lowell, S. L. 2015

机译：磁性合金粉末的还原膨胀合成。

Synthesis of Powder Alloys Based on the Ti-Ni-Hf System via a Calcium Hydride Reduction Process

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