烧结 Al-Sn-Fe 合金的机械性能

IF 1.8 4区 材料科学 Q2 MATERIALS SCIENCE, CHARACTERIZATION & TESTING Physical Mesomechanics Pub Date : 2024-02-08 DOI:10.1134/S1029959924010077
N. M. Rusin, A. L. Skorentsev, K. O. Akimov
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引用次数: 0

摘要

摘要 本文分析了烧结 Al-Sn-Fe 合金在压缩过程中的塑性流动特征,其中一些合金在压力为 300 兆帕和温度为 250 摄氏度的封闭模具中进行了压制,而另一些合金则在相同温度下通过路线 A(ECAP-A)进行了等通道角压。分析表明,烧结复合材料由取代铁粉颗粒的锡增强 Al3Fe 颗粒团聚体组成,这是由于 Al 和铁在烧结过程中发生了相互作用。这些团聚体强度很高,但由于Sn的存在而具有足够的韧性,因此能够在变形条件下存活,并有效地阻止应变局部带和微裂纹的扩展。在压缩过程中,Al-20Sn-17Al3Fe 中的这种团聚体保持其形状,作为固态单元移动,同时复合材料显示出良好的延展性。而在 ECAP-A 中,它们向塑性流动方向延伸,这对进一步压缩时的延展性产生了不利影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Mechanical Properties of Sintered Al–Sn–Fe Alloys

The paper analyzes the features of plastic flow in compression in sintered Al–Sn–Fe alloys, some of which were exposed to compaction in a closed die at a pressure of 300 MPa and temperature of 250°C, and some to equal-channel angular pressing by route A (ECAP-A) at the same temperature. The analysis shows that the sintered composites comprise agglomerates of Sn-cemented Al3Fe particles formed in place of Fe powder particles due to the interaction of Al and Fe in sintering. The agglomerates are strong but sufficiently ductile, due to Sn, to survive under deformation and to efficiently impede the propagation of strain localization bands and microcracks. In compression, such agglomerates in Al20Sn17Al3Fe hold their form, moving as solid units, while the composite displays good ductility. In ECAP-A, they extend in the direction of plastic flow, and this adversely affects their ductility in further compression.

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来源期刊
Physical Mesomechanics
Physical Mesomechanics Materials Science-General Materials Science
CiteScore
3.50
自引率
18.80%
发文量
48
期刊介绍: The journal provides an international medium for the publication of theoretical and experimental studies and reviews related in the physical mesomechanics and also solid-state physics, mechanics, materials science, geodynamics, non-destructive testing and in a large number of other fields where the physical mesomechanics may be used extensively. Papers dealing with the processing, characterization, structure and physical properties and computational aspects of the mesomechanics of heterogeneous media, fracture mesomechanics, physical mesomechanics of materials, mesomechanics applications for geodynamics and tectonics, mesomechanics of smart materials and materials for electronics, non-destructive testing are viewed as suitable for publication.
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