Microstructural evolution and mechanical proerties of Ti-(Ni, Fe)-Sn ultrafine eutectic alloys

Dong Hyouk Pi; Ki Buem Kim; Jin Man Park; Jun Hee Han; Do Hyang Kim

doi:10.1142/s0217979209060294

Microstructural evolution and mechanical proerties of Ti-(Ni, Fe)-Sn ultrafine eutectic alloys

Dong Hyouk Pi, Ki Buem Kim, Jin Man Park, Jun Hee Han, Do Hyang Kim

Department of Materials Science and Engineering

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

Abstract

Ultrafine eutectic alloys have been developed in Ti-Ni, Ti-Fe and Ti-(Ni, Fe)-Sn alloys. The Ti₇₆Ni₂₄ and (Ti₇₄Ni ₂₆)₉₇Sn₃ ultrafine eutectic alloys consist of a mixture of α-Ti and Ti₂Ni phases, and β-Ti(Sn) and Ti₂Ni phases, respectively, whereas the Ti_70.5Fe _29.5 and (Ti70.5Fe29.5)97Sn3 alloys are composed by a mixture of β-Ti(Sn) and FeTi phases with relatively spherical colony. The compression tests of Ti₇₆Ni₂₄, (Ti₇₄Ni₂₆) ₉₇Sn₃ and Ti_70.5Fe_29.5 ultrafine eutectic alloys reveal a strength of 1400 ̃ 1800 MPa with very limited plastic strain of 0.1 ̃ 1%. On the contrary, a (Ti_70.5Fe _29.5)₉₇Sn₃ alloy exhibits high strength of 2270 MPa with enhanced plastic strain of 3.1%. Based on these results, it is feasible to suggest that the eutectic morphology and interfacial coherency between the Ti solid solution and intermetallic phases influence to control the macroscopic plasticity of the Ti-Ni and Ti-Fe ultrafine eutectic alloys.

Original language	English
Pages (from-to)	953-959
Number of pages	7
Journal	International Journal of Modern Physics B
Volume	23
Issue number	6-7
DOIs	https://doi.org/10.1142/s0217979209060294
Publication status	Published - 2009 Mar 20

All Science Journal Classification (ASJC) codes

Statistical and Nonlinear Physics
Condensed Matter Physics

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title = "Microstructural evolution and mechanical proerties of Ti-(Ni, Fe)-Sn ultrafine eutectic alloys",

abstract = "Ultrafine eutectic alloys have been developed in Ti-Ni, Ti-Fe and Ti-(Ni, Fe)-Sn alloys. The Ti76Ni24 and (Ti74Ni 26)97Sn3 ultrafine eutectic alloys consist of a mixture of α-Ti and Ti2Ni phases, and β-Ti(Sn) and Ti2Ni phases, respectively, whereas the Ti70.5Fe 29.5 and (Ti70.5Fe29.5)97Sn3 alloys are composed by a mixture of β-Ti(Sn) and FeTi phases with relatively spherical colony. The compression tests of Ti76Ni24, (Ti74Ni26) 97Sn3 and Ti70.5Fe29.5 ultrafine eutectic alloys reveal a strength of 1400{\~ } 1800 MPa with very limited plastic strain of 0.1{\~ } 1%. On the contrary, a (Ti70.5Fe 29.5)97Sn3 alloy exhibits high strength of 2270 MPa with enhanced plastic strain of 3.1%. Based on these results, it is feasible to suggest that the eutectic morphology and interfacial coherency between the Ti solid solution and intermetallic phases influence to control the macroscopic plasticity of the Ti-Ni and Ti-Fe ultrafine eutectic alloys.",

author = "Pi, {Dong Hyouk} and Kim, {Ki Buem} and Park, {Jin Man} and Han, {Jun Hee} and Kim, {Do Hyang}",

year = "2009",

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AU - Pi, Dong Hyouk

AU - Kim, Ki Buem

AU - Park, Jin Man

AU - Han, Jun Hee

AU - Kim, Do Hyang

PY - 2009/3/20

Y1 - 2009/3/20

N2 - Ultrafine eutectic alloys have been developed in Ti-Ni, Ti-Fe and Ti-(Ni, Fe)-Sn alloys. The Ti76Ni24 and (Ti74Ni 26)97Sn3 ultrafine eutectic alloys consist of a mixture of α-Ti and Ti2Ni phases, and β-Ti(Sn) and Ti2Ni phases, respectively, whereas the Ti70.5Fe 29.5 and (Ti70.5Fe29.5)97Sn3 alloys are composed by a mixture of β-Ti(Sn) and FeTi phases with relatively spherical colony. The compression tests of Ti76Ni24, (Ti74Ni26) 97Sn3 and Ti70.5Fe29.5 ultrafine eutectic alloys reveal a strength of 1400 ̃ 1800 MPa with very limited plastic strain of 0.1 ̃ 1%. On the contrary, a (Ti70.5Fe 29.5)97Sn3 alloy exhibits high strength of 2270 MPa with enhanced plastic strain of 3.1%. Based on these results, it is feasible to suggest that the eutectic morphology and interfacial coherency between the Ti solid solution and intermetallic phases influence to control the macroscopic plasticity of the Ti-Ni and Ti-Fe ultrafine eutectic alloys.

AB - Ultrafine eutectic alloys have been developed in Ti-Ni, Ti-Fe and Ti-(Ni, Fe)-Sn alloys. The Ti76Ni24 and (Ti74Ni 26)97Sn3 ultrafine eutectic alloys consist of a mixture of α-Ti and Ti2Ni phases, and β-Ti(Sn) and Ti2Ni phases, respectively, whereas the Ti70.5Fe 29.5 and (Ti70.5Fe29.5)97Sn3 alloys are composed by a mixture of β-Ti(Sn) and FeTi phases with relatively spherical colony. The compression tests of Ti76Ni24, (Ti74Ni26) 97Sn3 and Ti70.5Fe29.5 ultrafine eutectic alloys reveal a strength of 1400 ̃ 1800 MPa with very limited plastic strain of 0.1 ̃ 1%. On the contrary, a (Ti70.5Fe 29.5)97Sn3 alloy exhibits high strength of 2270 MPa with enhanced plastic strain of 3.1%. Based on these results, it is feasible to suggest that the eutectic morphology and interfacial coherency between the Ti solid solution and intermetallic phases influence to control the macroscopic plasticity of the Ti-Ni and Ti-Fe ultrafine eutectic alloys.

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Microstructural evolution and mechanical proerties of Ti-(Ni, Fe)-Sn ultrafine eutectic alloys

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