Towards an understanding of tensile deformation in Ti-based bulk metallic glass matrix composites with BCC dendrites

Joanna A. Kolodziejska; Henry Kozachkov; Kelly Kranjc; Allen Hunter; Emmanuelle Marquis; William L. Johnson; Katharine M. Flores; Douglas C. Hofmann

doi:10.1038/srep22563

Towards an understanding of tensile deformation in Ti-based bulk metallic glass matrix composites with BCC dendrites

Joanna A. Kolodziejska
, Henry Kozachkov
, Kelly Kranjc
, Allen Hunter
, Emmanuelle Marquis
, William L. Johnson
, Katharine M. Flores
, Douglas C. Hofmann

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

49 Scopus citations

Abstract

The microstructure and tension ductility of a series of Ti-based bulk metallic glass matrix composite (BMGMC) is investigated by changing content of the β stabilizing element vanadium while holding the volume fraction of dendritic phase constant. The ability to change only one variable in these novel composites has previously been difficult, leading to uninvestigated areas regarding how composition affects properties. It is shown that the tension ductility can range from near zero percent to over ten percent simply by changing the amount of vanadium in the dendritic phase. This approach may prove useful for the future development of these alloys, which have largely been developed experimentally using trial and error.

Original language	English
Article number	22563
Journal	Scientific reports
Volume	6
DOIs	https://doi.org/10.1038/srep22563
State	Published - Mar 2 2016

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title = "Towards an understanding of tensile deformation in Ti-based bulk metallic glass matrix composites with BCC dendrites",

abstract = "The microstructure and tension ductility of a series of Ti-based bulk metallic glass matrix composite (BMGMC) is investigated by changing content of the β stabilizing element vanadium while holding the volume fraction of dendritic phase constant. The ability to change only one variable in these novel composites has previously been difficult, leading to uninvestigated areas regarding how composition affects properties. It is shown that the tension ductility can range from near zero percent to over ten percent simply by changing the amount of vanadium in the dendritic phase. This approach may prove useful for the future development of these alloys, which have largely been developed experimentally using trial and error.",

author = "Kolodziejska, \{Joanna A.\} and Henry Kozachkov and Kelly Kranjc and Allen Hunter and Emmanuelle Marquis and Johnson, \{William L.\} and Flores, \{Katharine M.\} and Hofmann, \{Douglas C.\}",

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doi = "10.1038/srep22563",

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AU - Kolodziejska, Joanna A.

AU - Kozachkov, Henry

AU - Kranjc, Kelly

AU - Hunter, Allen

AU - Marquis, Emmanuelle

AU - Johnson, William L.

AU - Flores, Katharine M.

AU - Hofmann, Douglas C.

PY - 2016/3/2

Y1 - 2016/3/2

N2 - The microstructure and tension ductility of a series of Ti-based bulk metallic glass matrix composite (BMGMC) is investigated by changing content of the β stabilizing element vanadium while holding the volume fraction of dendritic phase constant. The ability to change only one variable in these novel composites has previously been difficult, leading to uninvestigated areas regarding how composition affects properties. It is shown that the tension ductility can range from near zero percent to over ten percent simply by changing the amount of vanadium in the dendritic phase. This approach may prove useful for the future development of these alloys, which have largely been developed experimentally using trial and error.

AB - The microstructure and tension ductility of a series of Ti-based bulk metallic glass matrix composite (BMGMC) is investigated by changing content of the β stabilizing element vanadium while holding the volume fraction of dendritic phase constant. The ability to change only one variable in these novel composites has previously been difficult, leading to uninvestigated areas regarding how composition affects properties. It is shown that the tension ductility can range from near zero percent to over ten percent simply by changing the amount of vanadium in the dendritic phase. This approach may prove useful for the future development of these alloys, which have largely been developed experimentally using trial and error.

UR - https://www.scopus.com/pages/publications/84960153563

U2 - 10.1038/srep22563

DO - 10.1038/srep22563

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SN - 2045-2322

VL - 6

JO - Scientific reports

JF - Scientific reports

M1 - 22563

ER -

Towards an understanding of tensile deformation in Ti-based bulk metallic glass matrix composites with BCC dendrites

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