Bulk FeAl nanostructured materials obtained by spray forming and spark plasma sintering

机译：通过喷涂成型和火花等离子体烧结获得的块状FeAl纳米结构材料

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This paper examines the efficiency of two consolidation processing techniques high velocity oxy-fuel (HVOF) spray forming and spark plasma sintering (SPS) which allow to obtain bulk dense nanostructured materials. An oxide dispersion strengthened (ODS) Fe^tOAl (at.%) based milled powder (with a nanostructure < 30 nm in size) was used as a precursor. The microstructures of the sintered end-products were characterized by transmission electron microscopy (TEM). The results indicated that, under the present processing conditions, the HVOF spray forming is more effective to retain nanograins (30-90 nm in size) within unmelted powder particles. However, the SPS processing shows its potential to fully densify the material while retaining ultrafine grains having sizes in the range 100-400 nm together with larger micrometer grains.

机译：本文研究了两种固结处理技术的效率，这些技术可以通过高速氧燃料（HVOF）喷雾成型和火花等离子体烧结（SPS）来获得整体致密的纳米结构材料。使用基于氧化物分散体增强（ODS）的Fe ^ tOAl（at。％）研磨粉（纳米结构尺寸<30 nm）作为前体。通过透射电子显微镜（TEM）表征了烧结终产物的微观结构。结果表明，在目前的加工条件下，HVOF喷涂成型更有效地将未熔化粉末颗粒中的纳米颗粒（尺寸为30-90 nm）保留在了其中。然而，SPS工艺显示出其潜力，可以充分致密化材料，同时保留尺寸在100-400 nm范围内的超细晶粒以及较大的微米晶粒。

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来源
《International Symposium on Metastable and Nano-Materials(ISMANAM-2005); 20050703-07; Paris(FR)》|2005年|P.358-361|共4页
会议地点 Paris(FR)
作者
Gang Ji; Thierry Grosdidier; Frederic Bernard; Sebastien Paris; Eric Gaffet; Sebastien Launois;
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作者单位

Laboratoire d'Etude des Textures et Application aux Materiaux, UMR CNRS 7078, Universite Paul Verlaine de Metz, Ile du Saulcy, 57045 Metz Cedex 01, France;

Laboratoire de Recherche sur la Reactivite des Solides, UMR CNRS 5613, Universite de Bourgogne, 9 A;

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会议组织
原文格式 PDF
正文语种 eng
中图分类有色金属冶炼;
关键词
iron aluminides (based on FeAl); high velocity oxy-fuel spray forming; spark plasma sintering; nanostructures; Transmission electron microscopy (TEM);

机译：铝酸铁（基于FeAl）;高速氧-燃料喷雾成型;火花等离子体烧结;纳米结构;透射电子显微镜（TEM）;

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专利

1. Bulk FeAl nanostructured materials obtained by spray forming and spark plasma sintering [J] . Gang Ji, Thierry Grosdidier, Frederic Bernard Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2007,第0期

机译：通过喷涂成型和火花等离子体烧结获得的块状FeAl纳米结构材料
2. Synthesis of bulk FeAl nanostructured materials by HVOF spray forming and Spark Plasma Sintering [J] . T. GROSDIDIER, G. Ji, F. BERNARD Intermetallics . 2006,第10a11期

机译：HVOF喷射成型和放电等离子烧结合成块状FeAl纳米材料。
3. Challenges of nanostructuring and functional properties for selected bulk materials obtained by reactive spark plasma sintering [J] . Petre Badica, Gheorghe V. Aldica, Mihail Burdusel, Japanese journal of applied physics . 2014,第5S1期

机译：通过反应性火花等离子体烧结获得的选定块状材料的纳米结构和功能特性的挑战
4. Bulk FeAl nanostructured materials obtained by spray forming and spark plasma sintering [C] . Gang Ji, Thierry Grosdidier, Frederic Bernard, International Symposium on Metastable and Nano-Materials(ISMANAM-2005) . 1991

机译：通过喷雾成型和火花等离子体烧结获得的散装FEAL纳米结构材料
5. Effect of sintering time and composition of sintering aids on the core-rim microstructure and material properties of spark plasma sintered silicon carbide. [D] . Bagienski, Steven E. 2013

机译：烧结时间和烧结助剂组成对火花等离子体烧结碳化硅的核-边组织和材料性能的影响。
6. Reproducibility of small Ge2C6H10O7-added MgB2 bulks fabricated by ex situ Spark Plasma Sintering used in compound bulk magnets with a trapped magnetic field above 5 T [O] . P. Badica, G. Aldica, M. A. Grigoroscuta, -1

机译：通过异位放电等离子烧结制造的添加了Ge2C6H10O7的MgB2小块的可重复性用于复合大块磁体中捕获磁场高于5 T
7. Unburned Carbon Behavior in Sintered Coal Fly-Ash Bulk Material by Spark Plasma Sintering [O] . Kazuhiro Hasezaki, Akifumi Nakashita, Gen-yo Kaneko, 2007

机译：Spark等离子烧结烧结煤粉煤灰散装材料中未燃烧的碳行为
8. Development of Texture-Controlled Bulk-Materials by Combing Rapid- Solidified Fiber/Ribbon Material Elements with Spark Plasma Sintering(SPS) [R] . Furuya, Y. , Yokoyama, M. , Saito, C. , 2003

机译：通过快速凝固的纤维/带材料元件与放电等离子烧结（sps）相结合开发纹理控制的散装材料

Bulk FeAl nanostructured materials obtained by spray forming and spark plasma sintering

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