Bulk Nanocrystalline Al_(85)ni_(10)la_5 Alloy Fabricated By Spark Plasma Sintering Of Atomized Amorphous Powders

T; T; Sasaki; K; Hono; J; Vierke; M; Wollgarten; J; Banhart

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Bulk Nanocrystalline Al_(85)ni_(10)la_5 Alloy Fabricated By Spark Plasma Sintering Of Atomized Amorphous Powders

机译：雾化非晶态粉末火花等离子体烧结制备块状纳米Al_（85）ni_（10）la_5合金

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Amorphous Al_(85)Ni_(10)La_5 powders were consolidated to cylindrical samples by spark plasma sintering (SPS), and their microstructures and mechanical properties were investigated. When the powders were consolidated below the crystallization temperature, an amorphous phase was retained in the consolidated sample. Sintering above the crystallization temperature caused full crystallization. The Vickers hardness of the amorphous-containing sample was about 350 HV in the as-sintered state and increased up to 450 HV by a subsequent heat treatment just below the crystallization temperature. The highest hardness was achieved in a nanocrystalline microstructure. Compression tests revealed the brittle nature of the consolidated samples although the fracture and yield strength was higher than 1 GPa. The brittleness is due to the low relative density of the amorphous-containing samples and the presence of a large amount of intermetallic compounds in the fully crystallized sample.

机译：通过火花等离子体烧结（SPS）将非晶态的Al_（85）Ni_（10）La_5粉末固结成圆柱状样品，并对其微观结构和力学性能进行了研究。当粉末在低于结晶温度下固结时，无定形相保留在固结的样品中。高于结晶温度的烧结引起完全结晶。含非晶态样品的维氏硬度在烧结状态下约为350 HV，通过紧接低于结晶温度的后续热处理，维氏硬度提高到450 HV。在纳米晶体的微观结构中获得了最高的硬度。压缩测试显示固结样品的脆性，尽管断裂和屈服强度高于1 GPa。脆性是由于含非晶态样品的相对密度较低，并且在完全结晶的样品中存在大量金属间化合物。

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《Materials Science and Engineering》 |2008年第2期|343-350|共8页
作者
T; T; Sasaki; K; Hono; J; Vierke; M; Wollgarten; J; Banhart;
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正文语种 eng
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al-ni-la alloy; bulk amorphous; spark plasma sintering;

机译：铝镍合金大块无定形;火花等离子体烧结;

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1. Bulk amorphous Al_(85)Fe_(15) alloy and Al_(85)Fe_(15)-B composites with amorphous or nanocrystalline-matrix produced by consolidation of mechanically alloyed powders [J] . M. Krasnowski, A. Antolak-Dudka, T. Kulik Intermetallics . 2011,第8期

机译：通过机械合金化粉末的固结形成具有非晶或纳米晶基质的块状非晶Al_（85）Fe_（15）合金和Al_（85）Fe_（15）-B复合材料
2. Bulk amorphous Al_（85）Ni_（10）Ce_5 composite fabricated by cold hydromechanical pressing of partially amorphous powders [J] . WEI XianShun, HUANG YongJiang, VEKSHIN BorisSergeevitch, 中国科学通报：英文版 . 2011,第036期

机译：局部非晶态粉末的冷水机械压制而成的块状非晶态Al_（85）Ni_（10）Ce_5复合材料
3. Amorphous and nanocrystalline Al_(82)Ni_(10)Y_8 alloy powder prepared by gas atomization [J] . Y. LIU, Z. LIU, S. GUO Intermetallics . 2005,第3a4期

机译：气体雾化法制备非晶纳米Al_（82）Ni_（10）Y_8合金粉末
4. Crystallization Behavior Of An Amorphous Al_(85)Ni_(10)La_5 Alloy [C] . Zhihui Zhang, David Witkin, Enrique J. Lavernia Materials Science amp; Technology 2003 Meeting; Nov 9-12, 2003; Chicago, Illinois, USA . 2003

机译：非晶态Al_（85）Ni_（10）La_5合金的结晶行为
5. Densification behavior, nanocrystallization, and mechanical properties of spark plasma sintered Fe-based bulk amorphous alloys [D] . Singh, Ashish Kumar 2014

机译：火花等离子体烧结铁基块体非晶合金的致密化行为，纳米晶化和力学性能
6. Synthesizing of Novel Bulk (Zr67Cu33)100−xWx(x; 5–30 at) Glassy Alloys by Spark Plasma Sintering of Mechanically Alloyed Powders [O] . M. Sherif El-Eskandarany, Naser Ali 2020

机译：机械合金粉末的火花等离子体烧结合成新型大体积（Zr67Cu33）100-xWx（x; 5-30 at％）玻璃态合金
7. Production of Bulk Amorphous Mg₈₅Y₁₀Cu₅ Alloy by Extrusion of Atomized Amorphous Powder [O] . A. Kato, A. Inoue, H. Horikiri, 1994

机译：通过挤出雾化无定形粉末，生产块状无定形Mg _{85 Y _{10 Cu _{5 合金}}}

Bulk Nanocrystalline Al_(85)ni_(10)la_5 Alloy Fabricated By Spark Plasma Sintering Of Atomized Amorphous Powders

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