Fabrication of high-strength Ti materials by in-process solid solution strengthening of oxygen via P/M methods

The applications of Ti and its alloys are limited to high-performance products because of the expensive material cost and poor plastic formability. In order to develop a cost-effective processing route for pure Ti and its alloys, pure Ti powder was used as raw material and consolidated by different...

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Published inMaterials science & engineering. A, Structural materials : properties, microstructure and processing Vol. 563; pp. 95 - 100
Main Authors Sun, Bin, Li, Shufeng, Imai, Hisashi, Mimoto, Takanori, Umeda, Junko, Kondoh, Katsuyoshi
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier B.V 15.02.2013
Elsevier
Subjects
Alloys
Applied sciences
Consolidation
Cross-disciplinary physics: materials science; rheology
Exact sciences and technology
Hardness
Materials science
Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology
Metals. Metallurgy
Other heat and thermomechanical treatments
Oxygen
Physics
Powder metallurgy (P/M)
Powder metallurgy. Composite materials
Production techniques
Solid solution strengthening
Solid solution, precipitation, and dispersion hardening; aging
Solid solutions
Solution strengthening
Spark plasma sintering (SPS)
Strengthening
Technology
Titanium
Titanium base alloys
Treatment of materials and its effects on microstructure and properties
Titanium
Solid solution strengthening
Spark plasma sintering (SPS)
Powder metallurgy (P/M)
High performance
Strengthening
Vickers hardness
Ultimate strength method
Material processing
Mechanical properties
Formability
Grain orientation
Powder metallurgy
Texture
Solid solution hardening
Tensile strength
Compacting
Spark plasma sintering
Solid solutions
Extrusion
Property structure relationship
Grain refinement
Elongation (mechanics)
Online AccessGet full text
ISSN0921-5093
1873-4936
DOI10.1016/j.msea.2012.11.058

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Abstract The applications of Ti and its alloys are limited to high-performance products because of the expensive material cost and poor plastic formability. In order to develop a cost-effective processing route for pure Ti and its alloys, pure Ti powder was used as raw material and consolidated by different powder metallurgy routes in this study. Warm compaction and cold compaction were employed to consolidate Ti powder and spark plasma sintering (SPS) was used as a reference method. The obtained compacts were hot extruded subsequently. The microstructures and mechanical properties of the hot-extruded pure Ti were evaluated. It was found that the samples prepared by warm compaction showed a higher ultimate tensile strength of 973.6MPa, a better elongation of 26% and a higher Vickers hardness of 389.8Hv compared with the other two methods. Effects of grain orientation, grain refinement and solid solution strengthening on mechanical properties were discussed. It was found that the main strengthening mechanism for the sample prepared by warm compaction was oxygen solid solution strengthening resulting from in-process in this study. The strengthening effect of oxygen solid solution was calculated as 769.8MPa/mass% [O].
AbstractList The applications of Ti and its alloys are limited to high-performance products because of the expensive material cost and poor plastic formability. In order to develop a cost-effective processing route for pure Ti and its alloys, pure Ti powder was used as raw material and consolidated by different powder metallurgy routes in this study. Warm compaction and cold compaction were employed to consolidate Ti powder and spark plasma sintering (SPS) was used as a reference method. The obtained compacts were hot extruded subsequently. The microstructures and mechanical properties of the hot-extruded pure Ti were evaluated. It was found that the samples prepared by warm compaction showed a higher ultimate tensile strength of 973.6MPa, a better elongation of 26% and a higher Vickers hardness of 389.8Hv compared with the other two methods. Effects of grain orientation, grain refinement and solid solution strengthening on mechanical properties were discussed. It was found that the main strengthening mechanism for the sample prepared by warm compaction was oxygen solid solution strengthening resulting from in-process in this study. The strengthening effect of oxygen solid solution was calculated as 769.8MPa/mass% [O].
Author Umeda, Junko
Imai, Hisashi
Kondoh, Katsuyoshi
Mimoto, Takanori
Sun, Bin
Li, Shufeng
Author_xml – sequence: 1
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  surname: Li
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  givenname: Hisashi
  surname: Imai
  fullname: Imai, Hisashi
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  givenname: Takanori
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  givenname: Junko
  surname: Umeda
  fullname: Umeda, Junko
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  givenname: Katsuyoshi
  surname: Kondoh
  fullname: Kondoh, Katsuyoshi
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Keywords Titanium
Solid solution strengthening
Spark plasma sintering (SPS)
Powder metallurgy (P/M)
High performance
Strengthening
Vickers hardness
Ultimate strength method
Material processing
Mechanical properties
Formability
Grain orientation
Powder metallurgy
Texture
Solid solution hardening
Tensile strength
Compacting
Spark plasma sintering
Solid solutions
Extrusion
Property structure relationship
Grain refinement
Elongation (mechanics)
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Snippet The applications of Ti and its alloys are limited to high-performance products because of the expensive material cost and poor plastic formability. In order to...
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StartPage 95
SubjectTerms Alloys
Applied sciences
Consolidation
Cross-disciplinary physics: materials science; rheology
Exact sciences and technology
Hardness
Materials science
Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology
Metals. Metallurgy
Other heat and thermomechanical treatments
Oxygen
Physics
Powder metallurgy (P/M)
Powder metallurgy. Composite materials
Production techniques
Solid solution strengthening
Solid solution, precipitation, and dispersion hardening; aging
Solid solutions
Solution strengthening
Spark plasma sintering (SPS)
Strengthening
Technology
Titanium
Titanium base alloys
Treatment of materials and its effects on microstructure and properties
Title Fabrication of high-strength Ti materials by in-process solid solution strengthening of oxygen via P/M methods
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