Production of customized hybrid porous structures by powder metallurgy of Ni_(59)Zr_(20)Ti_(16)Si_2Sn_3 glassy powders

Sergio Scudino; Jin Young Kim; Konda Gokuldoss Prashanth; Min Ha Lee; Bum Sung Kim; Uta Kuehn; Juergen Eckert

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Production of customized hybrid porous structures by powder metallurgy of Ni_(59)Zr_(20)Ti_(16)Si_2Sn_3 glassy powders

机译：Ni_（59）Zr_（20）Ti_（16）Si_2Sn_3玻璃态粉末的粉末冶金生产定制的混合多孔结构

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Among the different porous materials, bulk metallic glass (BMG) foams are of special interest due to their high strength combined with large elastic limit. Large surface areas and, therefore, high reactivity in chemical applications can be achieved by properly adjusting the pore characteristics. Pore size and pore size distribution are the key factors for determining the overall performance of open-cell porous materials used for functional applications, such as filtration or catalysis. As a result, the control of these factors is a necessary requirement for material design and application. In this work, BMG foams are produced by powder metallurgy through the selective dissolution of a fugitive phase. The work is focused on the manufacturing processes needed to properly control pore size and pore size distribution. The results reveal that customized hybrid BMG porous structures can be produced through the controlled milling of the BMG-composite powders.

机译：在不同的多孔材料中，块状金属玻璃（BMG）泡沫由于其高强度和较大的弹性极限而特别受关注。通过适当地调节孔的特性，可以实现大的表面积并因此在化学应用中具有高反应性。孔径和孔径分布是确定用于功能性应用（例如过滤或催化）的开孔多孔材料整体性能的关键因素。因此，控制这些因素是材料设计和应用的必要要求。在这项工作中，BMG泡沫是通过粉末冶金通过选择性溶解逸散相来生产的。这项工作集中在适当控制孔径和孔径分布所需的制造工艺上。结果表明，可以通过控制研磨BMG复合粉末来生产定制的混合BMG多孔结构。

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来源
《Journal of Materials Research》 |2013年第17期|2490-2498|共9页
作者
Sergio Scudino; Jin Young Kim; Konda Gokuldoss Prashanth; Min Ha Lee; Bum Sung Kim; Uta Kuehn; Juergen Eckert;
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作者单位

IFW Dresden, Institut fur Komplexe Materialien, D-01171 Dresden, Germany;

IFW Dresden, Institut fur Komplexe Materialien, D-01171 Dresden, Germany;

IFW Dresden, Institut fur Komplexe Materialien, D-01171 Dresden, Germany;

Korea Institute for Rare Metals, Korea Institute of Industrial Technology, Incheon 406-840, Korea;

Korea Institute for Rare Metals, Korea Institute of Industrial Technology, Incheon 406-840, Korea;

IFW Dresden, Institut fur Komplexe Materialien, D-01171 Dresden, Germany;

IFW Dresden, Institut fur Komplexe Materialien, D-01171 Dresden, Germany and TU Dresden,InstitutfurWerkstoffwissenschaft, D-01062 Dresden, Germany;

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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);
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正文语种 eng
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1. Tribological behavior of the kinetic sprayed Ni_(59)Ti_(16)Zr_(20)Si_2Sn_3 bulk metallic glass [J] . Hanshin Choi, Hyungho Jo, Kyoungjun An Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2007,第0期

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2. Bulk amorphous Ni_(59)Zr_(20)Ti_(16)Sn_5 alloy fabricated by powder compaction [J] . D. Oleszak, D. Kolesnikov, T. Kulik Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2009,第1a2期

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3. Characterization of Ni_(57)Zr_(20)Ti_(20)Sn_3 amorphous powders obtained by mechanical alloying [J] . Hsin-Ming Wu, Shih-Sheng Hung, Pee-Yew Lee Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2007,第0期

机译：机械合金化获得的Ni_（57）Zr_（20）Ti_（20）Sn_3非晶态粉末的表征
4. Bulk amorphous Ni_(59)Zr_(20)Ti_(16)Sn_5 alloy fabricated by powder compaction [C] . D. Oleszak, rnD. Kolesnikov, rnT. Kulik Journal of alloys and compounds : An interdisciplinary journal of materials science and solid-state chemistry and physics . 2007

机译：粉末压制成形的块状非晶Ni_（59）Zr_（20）Ti_（16）Sn_5合金
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机译：粉末冶金非膨胀型镁挤压合金快速凝固过程的组织与力学响应。

Production of customized hybrid porous structures by powder metallurgy of Ni_(59)Zr_(20)Ti_(16)Si_2Sn_3 glassy powders

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