Effect of substitutional solid solution on dislocation nucleation in Fe 3Al intermetallic alloys

Afrooz Barnoush; Mohammad Zamanzade

doi:10.1080/14786435.2012.698759

Effect of substitutional solid solution on dislocation nucleation in Fe ₃Al intermetallic alloys

Afrooz Barnoush^*, Mohammad Zamanzade

^*Corresponding author for this work

Saarland University

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

17 Citations (Scopus)

Abstract

Dislocation nucleation in solid solutions of body-centered-cubic intermetallic Fe ₃Al alloys was investigated by means of nanoindentation and measurement of the pop-in load of samples with different Cr content. It is clearly shown that the Cr solute element in the Fe ₃Al intermetallic alloy increases the pop-in load, i.e. shear stress, required for dislocation nucleation in a previously dislocation-free region. Changes in pop-in load track closely with changes in elastic properties, which can be interpreted within the framework of the universal features of metallic bonding as a change in the interatomic potential, as proposed by Rose et al.

Original language	English
Pages (from-to)	3257-3268
Number of pages	12
Journal	Philosophical Magazine
Volume	92
Issue number	25-27
DOIs	https://doi.org/10.1080/14786435.2012.698759
Publication status	Published - 1 Sept 2012
Externally published	Yes

Keywords

Fe Al
dislocations
mechanical properties
nanoindentation

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10.1080/14786435.2012.698759

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abstract = "Dislocation nucleation in solid solutions of body-centered-cubic intermetallic Fe 3Al alloys was investigated by means of nanoindentation and measurement of the pop-in load of samples with different Cr content. It is clearly shown that the Cr solute element in the Fe 3Al intermetallic alloy increases the pop-in load, i.e. shear stress, required for dislocation nucleation in a previously dislocation-free region. Changes in pop-in load track closely with changes in elastic properties, which can be interpreted within the framework of the universal features of metallic bonding as a change in the interatomic potential, as proposed by Rose et al.",

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AU - Barnoush, Afrooz

AU - Zamanzade, Mohammad

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N2 - Dislocation nucleation in solid solutions of body-centered-cubic intermetallic Fe 3Al alloys was investigated by means of nanoindentation and measurement of the pop-in load of samples with different Cr content. It is clearly shown that the Cr solute element in the Fe 3Al intermetallic alloy increases the pop-in load, i.e. shear stress, required for dislocation nucleation in a previously dislocation-free region. Changes in pop-in load track closely with changes in elastic properties, which can be interpreted within the framework of the universal features of metallic bonding as a change in the interatomic potential, as proposed by Rose et al.

AB - Dislocation nucleation in solid solutions of body-centered-cubic intermetallic Fe 3Al alloys was investigated by means of nanoindentation and measurement of the pop-in load of samples with different Cr content. It is clearly shown that the Cr solute element in the Fe 3Al intermetallic alloy increases the pop-in load, i.e. shear stress, required for dislocation nucleation in a previously dislocation-free region. Changes in pop-in load track closely with changes in elastic properties, which can be interpreted within the framework of the universal features of metallic bonding as a change in the interatomic potential, as proposed by Rose et al.

KW - Fe Al

KW - dislocations

KW - mechanical properties

KW - nanoindentation

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JO - Philosophical Magazine

JF - Philosophical Magazine

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ER -

Effect of substitutional solid solution on dislocation nucleation in Fe ₃Al intermetallic alloys

Abstract

Keywords

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