Combustion synthesis and characterization of bulk nanostructured Ni 50Al 17Fe 33 alloy

Jiqiang Ma; Jun Yang; Xinghua Zhang; Qinling Bi; Licai Fu; Yonghai Kang; Weimin Liu

doi:10.3139/146.110709

Combustion synthesis and characterization of bulk nanostructured Ni ₅₀Al ₁₇Fe ₃₃ alloy

Jiqiang Ma, Jun Yang, Xinghua Zhang, Qinling Bi, Licai Fu, Yonghai Kang, Weimin Liu

Research output: Contribution to journal › Article › peer-review

Abstract

A bulk nanostructured Ni ₅₀Al ₁₇Fe ₃₃ alloy was produced by combustion synthesis associated with rapid solidification. The microstructure and mechanical properties of the as-fabricated material were investigated by means of scanning electron microscopy, X-ray diffraction, and mechanical tests. The Ni ₅₀Al ₁₇Fe ₃₃ alloy was composed of eutectic matrix and precipitated phase. The eutectic matrix consisted of 30 - 50 nm globular γ'-(Ni,Fe) ₃Al and 5- 10 nm γ-Ni(Fe) boundary. The precipitate was comprised of 100 -150 nm γ'-(Ni,Fe) ₃Al, γ-Fe, and α-Fe solid solution phases. The nanostructured Ni ₅₀Al ₁₇Fe ₃₃ alloy exhibited simultaneously high yield stress (about 900 MPa), high fracture strength (over 3 860 MPa), and good ductility (over 75%) in compression.

Original language	English
Pages (from-to)	866-869
Number of pages	4
Journal	International Journal of Materials Research
Volume	103
Issue number	7
DOIs	https://doi.org/10.3139/146.110709
State	Published - 2012
Externally published	Yes

Keywords

Bulk nanostructured materials
Combustion synthesis
Mechanical behavior
Ni Al-based alloy

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10.3139/146.110709

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title = "Combustion synthesis and characterization of bulk nanostructured Ni 50Al 17Fe 33 alloy",

abstract = "A bulk nanostructured Ni 50Al 17Fe 33 alloy was produced by combustion synthesis associated with rapid solidification. The microstructure and mechanical properties of the as-fabricated material were investigated by means of scanning electron microscopy, X-ray diffraction, and mechanical tests. The Ni 50Al 17Fe 33 alloy was composed of eutectic matrix and precipitated phase. The eutectic matrix consisted of 30 - 50 nm globular γ'-(Ni,Fe) 3Al and 5- 10 nm γ-Ni(Fe) boundary. The precipitate was comprised of 100 -150 nm γ'-(Ni,Fe) 3Al, γ-Fe, and α-Fe solid solution phases. The nanostructured Ni 50Al 17Fe 33 alloy exhibited simultaneously high yield stress (about 900 MPa), high fracture strength (over 3 860 MPa), and good ductility (over 75%) in compression.",

keywords = "Bulk nanostructured materials, Combustion synthesis, Mechanical behavior, Ni Al-based alloy",

author = "Jiqiang Ma and Jun Yang and Xinghua Zhang and Qinling Bi and Licai Fu and Yonghai Kang and Weimin Liu",

year = "2012",

doi = "10.3139/146.110709",

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volume = "103",

pages = "866--869",

journal = "International Journal of Materials Research",

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T1 - Combustion synthesis and characterization of bulk nanostructured Ni 50Al 17Fe 33 alloy

AU - Ma, Jiqiang

AU - Yang, Jun

AU - Zhang, Xinghua

AU - Bi, Qinling

AU - Fu, Licai

AU - Kang, Yonghai

AU - Liu, Weimin

PY - 2012

Y1 - 2012

N2 - A bulk nanostructured Ni 50Al 17Fe 33 alloy was produced by combustion synthesis associated with rapid solidification. The microstructure and mechanical properties of the as-fabricated material were investigated by means of scanning electron microscopy, X-ray diffraction, and mechanical tests. The Ni 50Al 17Fe 33 alloy was composed of eutectic matrix and precipitated phase. The eutectic matrix consisted of 30 - 50 nm globular γ'-(Ni,Fe) 3Al and 5- 10 nm γ-Ni(Fe) boundary. The precipitate was comprised of 100 -150 nm γ'-(Ni,Fe) 3Al, γ-Fe, and α-Fe solid solution phases. The nanostructured Ni 50Al 17Fe 33 alloy exhibited simultaneously high yield stress (about 900 MPa), high fracture strength (over 3 860 MPa), and good ductility (over 75%) in compression.

AB - A bulk nanostructured Ni 50Al 17Fe 33 alloy was produced by combustion synthesis associated with rapid solidification. The microstructure and mechanical properties of the as-fabricated material were investigated by means of scanning electron microscopy, X-ray diffraction, and mechanical tests. The Ni 50Al 17Fe 33 alloy was composed of eutectic matrix and precipitated phase. The eutectic matrix consisted of 30 - 50 nm globular γ'-(Ni,Fe) 3Al and 5- 10 nm γ-Ni(Fe) boundary. The precipitate was comprised of 100 -150 nm γ'-(Ni,Fe) 3Al, γ-Fe, and α-Fe solid solution phases. The nanostructured Ni 50Al 17Fe 33 alloy exhibited simultaneously high yield stress (about 900 MPa), high fracture strength (over 3 860 MPa), and good ductility (over 75%) in compression.

KW - Bulk nanostructured materials

KW - Combustion synthesis

KW - Mechanical behavior

KW - Ni Al-based alloy

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DO - 10.3139/146.110709

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VL - 103

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JO - International Journal of Materials Research

JF - International Journal of Materials Research

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Combustion synthesis and characterization of bulk nanostructured Ni ₅₀Al ₁₇Fe ₃₃ alloy

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Keywords

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