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Journal of Materials Science

Erschienen in:

01.12.2015 | Original Paper

The effects of annealing on the microstructure and mechanical properties of Fe₂₈Ni₁₈Mn₃₃Al₂₁

verfasst von: Fanling Meng, Jingwen Qiu, Ian Baker, Hongbin Bei

Erschienen in: Journal of Materials Science | Ausgabe 23/2015

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Abstract

As-cast Fe₂₈Ni₁₈Mn₃₃Al₂₁, which consists of aligned, 50 nm, (Ni, Al)-rich B2, and (Fe, Mn)-rich f.c.c. phases, was annealed at a variety of temperatures up to 1423 K and the microstructure and mechanical properties were examined. It was shown that the as-cast microstructure arises from a eutectoid transformation at ~1300 K. Annealing at temperatures ≤1073 K produces β-Mn-structured precipitates and hardness values up to 816 HV, while annealing at temperatures >1073 K leads to dramatic coarsening of the two-phase B2/f.c.c. microstructure (up to 5.5 µm after 50 h at 1273 K), but does not lead to β-Mn precipitation. Interestingly, annealing at temperatures >1073 K delays the onset of β-Mn precipitation during subsequent anneals at lower temperatures. Coarsening the B2/f.c.c. lamellar structure by annealing at higher temperatures softens it and leads to increases in ductility from fracture before yield to ~8 % elongation. The presence of β-Mn precipitates makes the very fine, brittle B2/f.c.c. microstructures even more brittle, but significant ductility (8.4 % elongation) is possible even with β-Mn precipitates present if the B2/f.c.c. matrix is coarse and, hence, more ductile.

Vorheriger Artikel Ternary intermetallic compounds in Au–Sn soldering systems—structure and properties

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It is worth noting that while the β-Mn precipitates do not affect the yield strength since the f.c.c. phase can flow to accommodate small tensile strains, they do affect the hardness since during hardness testing both the f.c.c. and B2 phases are forced to accommodate the hardness indenter.

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Titel: The effects of annealing on the microstructure and mechanical properties of Fe28Ni18Mn33Al21
verfasst von: Fanling Meng
Jingwen Qiu
Ian Baker
Hongbin Bei
Publikationsdatum: 01.12.2015
Verlag: Springer US
Erschienen in: Journal of Materials Science / Ausgabe 23/2015
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-015-9353-x

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