Materials Science & Engineering A: Structural Materials: Properties, Microstructure and Processing

, volume 375-377 , pages 213-218

Microstructural development in equiatomic multicomponent alloys

B. Cantor ^{1, 2}

In Seong Chang ^{1, 2}

P. Knight ^{1, 2}

A.J.B. Vincent ^{1, 2}

Hide authors affiliations Show authors affiliations: 2 affiliations

Department of Materials, Oxford University, Parks Road, Oxford OX1 3PH, UK |

School of Metallurgy and Materials, Birmingham University, Birmingham B15 2TT, UK |

Publication type: Journal Article

Publication date: 2004-07-01

Elsevier

Materials Science & Engineering A: Structural Materials: Properties, Microstructure and Processing

scimago Q1

wos Q1

SJR: 1.955

CiteScore: 12.7

Impact factor: 7.0

ISSN: 09215093, 18734936

DOI: 10.1016/j.msea.2003.10.257

Copy DOI

Condensed Matter Physics

General Materials Science

Mechanical Engineering

Mechanics of Materials

Abstract

Multicomponent alloys containing several components in equal atomic proportions have been manufactured by casting and melt spinning, and their microstructures and properties have been investigated by a combination of optical microscopy, scanning electron microscopy, electron probe microanalysis, X-ray diffractrometry and microhardness measurements. Alloys containing 16 and 20 components in equal proportions are multiphase, crystalline and brittle both as-cast and after melt spinning. A five component Fe20Cr20Mn20Ni20Co20 alloy forms a single fcc solid solution which solidifies dendritically. A wide range of other six to nine component late transition metal rich multicomponent alloys exhibit the same majority fcc primary dendritic phase, which can dissolve substantial amounts of other transition metals such as Nb, Ti and V. More electronegative elements such as Cu and Ge are less stable in the fcc dendrites and are rejected into the interdendritic regions. The total number of phases is always well below the maximum equilibrium number allowed by the Gibbs phase rule, and even further below the maximum number allowed under non-equilibrium solidification conditions. Glassy structures are not formed by casting or melt spinning of late transition metal rich multicomponent alloys, indicating that the confusion principle does not apply, and other factors are more important in promoting glass formation.

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GOST |

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GOST Copy

Cantor B. et al. Microstructural development in equiatomic multicomponent alloys // Materials Science & Engineering A: Structural Materials: Properties, Microstructure and Processing. 2004. Vol. 375-377. pp. 213-218.

GOST all authors (up to 50) Copy

Cantor B., Chang I. S., Knight P., Vincent A. Microstructural development in equiatomic multicomponent alloys // Materials Science & Engineering A: Structural Materials: Properties, Microstructure and Processing. 2004. Vol. 375-377. pp. 213-218.

RIS |

Cite this

RIS Copy

TY - JOUR

DO - 10.1016/j.msea.2003.10.257

UR - https://doi.org/10.1016/j.msea.2003.10.257

TI - Microstructural development in equiatomic multicomponent alloys

T2 - Materials Science & Engineering A: Structural Materials: Properties, Microstructure and Processing

AU - Cantor, B.

AU - Chang, In Seong

AU - Knight, P.

AU - Vincent, A.J.B.

PY - 2004

DA - 2004/07/01

PB - Elsevier

SP - 213-218

VL - 375-377

SN - 0921-5093

SN - 1873-4936

ER -

BibTex

Cite this

BibTex (up to 50 authors) Copy

@article{2004_Cantor,

author = {B. Cantor and In Seong Chang and P. Knight and A.J.B. Vincent},

title = {Microstructural development in equiatomic multicomponent alloys},

journal = {Materials Science & Engineering A: Structural Materials: Properties, Microstructure and Processing},

year = {2004},

volume = {375-377},

publisher = {Elsevier},

month = {jul},

url = {https://doi.org/10.1016/j.msea.2003.10.257},

pages = {213--218},

doi = {10.1016/j.msea.2003.10.257}

}

Publisher

Elsevier

Journal

Materials Science & Engineering A: Structural Materials: Properties, Microstructure and Processing

scimago Q1

wos Q1

SJR

1.955

CiteScore

12.7

Impact factor

7.0

ISSN

09215093 (Print)

18734936