Microalloying effects on the microstructure and kinetics of nanoscale precipitation in Ni–Al–Fe alloy

Duman, Nagehan; Mekhrabov, Amdulla O.; Akdeniz, M. Vedat

doi:10.1016/j.intermet.2012.01.002

Cited by 10 publications

(3 citation statements)

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“…Several attempts have been made to improve the room temperature ductility of NiAl intermetallics alloy through the addition of alloying elements, reduction of grain size and other solidification processing [10,11]. Furthermore, it has been shown that the addition of elements such as Cu, Co, Mo, Ti and Fe is particularly beneficial in improving the mechanical properties of NiAl intermetallic alloy [12][13][14][15][16][17]. Among these additions, Cu is an excellent addition to improve the room ductility of NiAl intermetallic alloy [18].…”

Section: Introductionmentioning

confidence: 99%

Mechanical Behavior and Fracture Properties of NiAl Intermetallic Alloy with Different Copper Contents

Chen

2016

Applied Sciences

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Abstract:The deformation behavior and fracture characteristics of NiAl intermetallic alloy containing 5~7 at% Cu are investigated at room temperature under strain rates ranging from 1ˆ10´3 to 5ˆ10 3 s´1. It is shown that the copper contents and strain rate both have a significant effect on the mechanical behavior of the NiAl alloy. Specifically, the flow stress increases with an increasing copper content and strain rate. Moreover, the ductility also improves as the copper content increases. The change in the mechanical response and fracture behavior of the NiAl alloy given a higher copper content is thought to be the result of the precipitation of β-phase (Ni,Cu)Al and γ'-phase (Ni,Cu) 3 Al in the NiAl matrix.

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Section: Introductionmentioning

confidence: 99%

Mechanical Behavior and Fracture Properties of NiAl Intermetallic Alloy with Different Copper Contents

Chen

2016

Applied Sciences

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“…NiAl intermetallic compound can be used as a high-temperature material owing to its high melting point, low density, excellent thermal conduct, good temperature stability, and good oxidation resistance [2][3][4][5]. Unfortunately, this compound has a big disadvantage: low toughness at low temperature and low creep strength at high temperatures, which limits the application of this intermetallic compound [6].…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Characterization of Nanocrystalline Ni₅₀Al_50−xMo_x (x = 0–5) Intermetallic Compound during Mechanical Alloying Process

Khajesarvi

Akbari

2015

Journal of Nanoparticles

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Nanocrystalline Ni 50 Al 50− Mo ( = 0, 0.5, 1, 2.5, 5) intermetallic compound was produced through mechanical alloying of nickel, aluminum, and molybdenum powders. Powders produced from milling were analyzed using scanning electron microscopy (SEM) and X-ray diffractometry (XRD). Results showed that, with increasing the atomic percent of molybdenum, average grain size decreased from 3 to 0.5 m. Parameter lattice and lattice strain increased with increasing the atomic percent of molybdenum, while the crystal structure became finer up to 10 nm. Also, maximum microhardness was obtained for NiAl 49 Mo 1 alloy.

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“…Duman et al [24,25] performed the discussions about microstructural evolution by annealing and refinement by alloying additions for Ni-Fe-Al alloys. When it comes to La(Fe, Si) 13 -based compounds, previous researches mainly study the influence of alloying elements on the magnetic and magnetocaloric properties of the La(Fe, Si) 13 -based compounds.…”

Section: Introductionmentioning

confidence: 99%

Influence of the substitution of Ni for Fe on the microstructure evolution and magnetic phase transition in La(Fe1−xNix)11.5Si1.5 compounds

Sun

Long

2013

Materials Science and Engineering: B

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Microalloying effects on the microstructure and kinetics of nanoscale precipitation in Ni–Al–Fe alloy

Cited by 10 publications

References 40 publications

Mechanical Behavior and Fracture Properties of NiAl Intermetallic Alloy with Different Copper Contents

Mechanical Behavior and Fracture Properties of NiAl Intermetallic Alloy with Different Copper Contents

Synthesis and Characterization of Nanocrystalline Ni₅₀Al_50−xMo_x (x = 0–5) Intermetallic Compound during Mechanical Alloying Process

Influence of the substitution of Ni for Fe on the microstructure evolution and magnetic phase transition in La(Fe1−xNix)11.5Si1.5 compounds

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Microalloying effects on the microstructure and kinetics of nanoscale precipitation in Ni–Al–Fe alloy

Cited by 10 publications

References 40 publications

Mechanical Behavior and Fracture Properties of NiAl Intermetallic Alloy with Different Copper Contents

Mechanical Behavior and Fracture Properties of NiAl Intermetallic Alloy with Different Copper Contents

Synthesis and Characterization of Nanocrystalline Ni50Al50−xMox (x = 0–5) Intermetallic Compound during Mechanical Alloying Process

Influence of the substitution of Ni for Fe on the microstructure evolution and magnetic phase transition in La(Fe1−xNix)11.5Si1.5 compounds

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Synthesis and Characterization of Nanocrystalline Ni₅₀Al_50−xMo_x (x = 0–5) Intermetallic Compound during Mechanical Alloying Process