In situ transformations during SLM of an ultra-strong TiC reinforced Ti composite

This work demonstrates a successful in situ method capable of producing an ultra-strong novel Ti composite without aluminium and vanadium. In this method, selective laser melting is used to conduct in situ alloying and reinforcing of a Ti/10.5 wt% Mo 2 C powder mixture. It is shown that this leads t...

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Published inScientific reports Vol. 10; no. 1; pp. 10523 - 12
Main Authors Dadbakhsh, Sasan, Mertens, Raya, Vanmeensel, Kim, Ji, Gang, Kruth, Jean-Pierre
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 29.06.2020
Nature Publishing Group
SeriesScientific Reports
Subjects
639/166/985
639/301/357/551
Aluminum
Chemical Sciences
Condensed Matter
Crystal growth
Decomposition
Density
Ductility
Humanities and Social Sciences
Investigations
Lasers
Manufacturing
Material chemistry
Materials Science
Mechanical properties
Morphology
multidisciplinary
Orthopedics
Physics
Science
Science (multidisciplinary)
Titanium alloys
Transplants & implants
Vanadium
Online AccessGet full text
ISSN2045-2322
2045-2322
DOI10.1038/s41598-020-67434-3

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Abstract This work demonstrates a successful in situ method capable of producing an ultra-strong novel Ti composite without aluminium and vanadium. In this method, selective laser melting is used to conduct in situ alloying and reinforcing of a Ti/10.5 wt% Mo 2 C powder mixture. It is shown that this leads to a metastable β-Ti matrix homogeneously reinforced by high aspect ratio, 50–200 nm wide and up to several micrometre long TiC whiskers. The transformations of the phases are controlled by decomposition, dissolution, diffusion, and reformation of constituents. The whisker morphology of in situ formed TiC particles is associated with directional crystal growth along the TiC direction. The developed TiC reinforced β-Ti alloy combines a hardness over 500 HV, a Young’s modulus of 126 GPa, and an ultimate compressive strength of 1642 MPa. Improving the ductility of this composite is the subject of another work.
AbstractList This work demonstrates a successful in situ method capable of producing an ultra-strong novel Ti composite without aluminium and vanadium. In this method, selective laser melting is used to conduct in situ alloying and reinforcing of a Ti/10.5 wt% Mo 2 C powder mixture. It is shown that this leads to a metastable β-Ti matrix homogeneously reinforced by high aspect ratio, 50–200 nm wide and up to several micrometre long TiC whiskers. The transformations of the phases are controlled by decomposition, dissolution, diffusion, and reformation of constituents. The whisker morphology of in situ formed TiC particles is associated with directional crystal growth along the TiC direction. The developed TiC reinforced β-Ti alloy combines a hardness over 500 HV, a Young’s modulus of 126 GPa, and an ultimate compressive strength of 1642 MPa. Improving the ductility of this composite is the subject of another work.
This work demonstrates a successful in situ method capable of producing an ultra-strong novel Ti composite without aluminium and vanadium. In this method, selective laser melting is used to conduct in situ alloying and reinforcing of a Ti/10.5 wt% Mo2C powder mixture. It is shown that this leads to a metastable β-Ti matrix homogeneously reinforced by high aspect ratio, 50–200 nm wide and up to several micrometre long TiC whiskers. The transformations of the phases are controlled by decomposition, dissolution, diffusion, and reformation of constituents. The whisker morphology of in situ formed TiC particles is associated with directional crystal growth along the TiC direction. The developed TiC reinforced β-Ti alloy combines a hardness over 500 HV, a Young’s modulus of 126 GPa, and an ultimate compressive strength of 1642 MPa. Improving the ductility of this composite is the subject of another work.
This work demonstrates a successful in situ method capable of producing an ultra-strong novel Ti composite without aluminium and vanadium. In this method, selective laser melting is used to conduct in situ alloying and reinforcing of a Ti/10.5 wt% Mo 2 C powder mixture. It is shown that this leads to a metastable β-Ti matrix homogeneously reinforced by high aspect ratio, 50–200 nm wide and up to several micrometre long TiC whiskers. The transformations of the phases are controlled by decomposition, dissolution, diffusion, and reformation of constituents. The whisker morphology of in situ formed TiC particles is associated with directional crystal growth along the TiC <110> direction. The developed TiC reinforced β-Ti alloy combines a hardness over 500 HV, a Young’s modulus of 126 GPa, and an ultimate compressive strength of 1642 MPa. Improving the ductility of this composite is the subject of another work.
This work demonstrates a successful in situ method capable of producing an ultra-strong novel Ti composite without aluminium and vanadium. In this method, selective laser melting is used to conduct in situ alloying and reinforcing of a Ti/10.5 wt% Mo2C powder mixture. It is shown that this leads to a metastable β-Ti matrix homogeneously reinforced by high aspect ratio, 50-200 nm wide and up to several micrometre long TiC whiskers. The transformations of the phases are controlled by decomposition, dissolution, diffusion, and reformation of constituents. The whisker morphology of in situ formed TiC particles is associated with directional crystal growth along the TiC direction. The developed TiC reinforced β-Ti alloy combines a hardness over 500 HV, a Young's modulus of 126 GPa, and an ultimate compressive strength of 1642 MPa. Improving the ductility of this composite is the subject of another work.This work demonstrates a successful in situ method capable of producing an ultra-strong novel Ti composite without aluminium and vanadium. In this method, selective laser melting is used to conduct in situ alloying and reinforcing of a Ti/10.5 wt% Mo2C powder mixture. It is shown that this leads to a metastable β-Ti matrix homogeneously reinforced by high aspect ratio, 50-200 nm wide and up to several micrometre long TiC whiskers. The transformations of the phases are controlled by decomposition, dissolution, diffusion, and reformation of constituents. The whisker morphology of in situ formed TiC particles is associated with directional crystal growth along the TiC direction. The developed TiC reinforced β-Ti alloy combines a hardness over 500 HV, a Young's modulus of 126 GPa, and an ultimate compressive strength of 1642 MPa. Improving the ductility of this composite is the subject of another work.
ArticleNumber 10523
Author Dadbakhsh, Sasan
Mertens, Raya
Ji, Gang
Vanmeensel, Kim
Kruth, Jean-Pierre
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SSID ssj0000529419
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Snippet This work demonstrates a successful in situ method capable of producing an ultra-strong novel Ti composite without aluminium and vanadium. In this method,...
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StartPage 10523
SubjectTerms 639/166/985
639/301/357/551
Aluminum
Chemical Sciences
Condensed Matter
Crystal growth
Decomposition
Density
Ductility
Humanities and Social Sciences
Investigations
Lasers
Manufacturing
Material chemistry
Materials Science
Mechanical properties
Morphology
multidisciplinary
Orthopedics
Physics
Science
Science (multidisciplinary)
Titanium alloys
Transplants & implants
Vanadium
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Title In situ transformations during SLM of an ultra-strong TiC reinforced Ti composite
URI https://link.springer.com/article/10.1038/s41598-020-67434-3
https://www.proquest.com/docview/2418449997
https://www.proquest.com/docview/2419083183
https://hal.univ-lille.fr/hal-02922333
https://pubmed.ncbi.nlm.nih.gov/PMC7324562
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Volume 10
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