Hot deformation behavior of near-α Ti-Fe alloy in (α+β) two-phase region with different Fe content

Behrang Poorganji; Makoto Yamaguchi; Yoshio Itsumi; Katsushi Matsumoto; Tomofumi Tanaka; Yusuke Asa; Goro Miyamoto; Tadashi Furuhara

doi:10.4028/www.scientific.net/MSF.638-642.310

Hot deformation behavior of near-α Ti-Fe alloy in (α+β) two-phase region with different Fe content

Behrang Poorganji, Makoto Yamaguchi, Yoshio Itsumi, Katsushi Matsumoto, Tomofumi Tanaka, Yusuke Asa, Goro Miyamoto, Tadashi Furuhara

IMR - Materials Design Division

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In the present study, microstructure evolution of Ti-Fe alloys with different Fe content between 0.2-1.5mass% during hot deformation in (α+β) two-phase region is studied with focusing on effect of phase volume fraction at different deformation temperatures and strain rates. Hot deformation was conducted on the specimens quenched after b solutionizing at 1173K for 1.2ks at 1108, 1073 and 948K, by uniaxial compression by 50% at various strain rates ranged from 1 to 10^-4 s^-1. Initial structures are (α+β) lamellar structures of fine interlamellar spacing and colony sizes. Increase in Fe content results in increasing the fraction of the β phase at the given deformation temperature. Either colony size or interlamellar spacing is coarser at higher temperatures. At the higher deformation temperature where β phase fraction is larger, dynamic recovery of β phase is a major deformation mechanism while at a lower temperature, i.e., a higher α fraction, dynamic recrystallization of α phase occurs predominantly. It is concluded that critical strain needed for occurrence of dynamic recrystallization is decreased by increasing fraction of the α phase at the same deformation temperature, i.e., by decreasing Fe content. Furthermore, by increasing strain rate grain size of the recrystallized α is decreased.

Original language	English
Title of host publication	THERMEC 2009
Editors	Tara Chandra, Tara Chandra, Tara Chandra, N. Wanderka, N. Wanderka, N. Wanderka, Walter Reimers, Walter Reimers, Walter Reimers, M. Ionescu, M. Ionescu, M. Ionescu
Publisher	Trans Tech Publications Ltd
Pages	310-314
Number of pages	5
ISBN (Print)	0878492941, 9780878492947
DOIs	https://doi.org/10.4028/www.scientific.net/MSF.638-642.310
Publication status	Published - 2010
Event	6th International Conference on Processing and Manufacturing of Advanced Materials - THERMEC'2009 - Berlin, Germany Duration: 2009 Aug 25 → 2009 Aug 29

Publication series

Name	Materials Science Forum
Volume	638-642
ISSN (Print)	0255-5476
ISSN (Electronic)	1662-9752

Conference

Conference	6th International Conference on Processing and Manufacturing of Advanced Materials - THERMEC'2009
Country/Territory	Germany
City	Berlin
Period	09/8/25 → 09/8/29

Keywords

Hot deformation
Recrystallization
Titanium alloy
Ultrafine grained structure

Access to Document

10.4028/www.scientific.net/MSF.638-642.310

Cite this

Poorganji, B., Yamaguchi, M., Itsumi, Y., Matsumoto, K., Tanaka, T., Asa, Y., Miyamoto, G., & Furuhara, T. (2010). Hot deformation behavior of near-α Ti-Fe alloy in (α+β) two-phase region with different Fe content. In T. Chandra, T. Chandra, T. Chandra, N. Wanderka, N. Wanderka, N. Wanderka, W. Reimers, W. Reimers, W. Reimers, M. Ionescu, M. Ionescu, & M. Ionescu (Eds.), THERMEC 2009 (pp. 310-314). (Materials Science Forum; Vol. 638-642). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/MSF.638-642.310

Poorganji, Behrang ; Yamaguchi, Makoto ; Itsumi, Yoshio et al. / Hot deformation behavior of near-α Ti-Fe alloy in (α+β) two-phase region with different Fe content. THERMEC 2009. editor / Tara Chandra ; Tara Chandra ; Tara Chandra ; N. Wanderka ; N. Wanderka ; N. Wanderka ; Walter Reimers ; Walter Reimers ; Walter Reimers ; M. Ionescu ; M. Ionescu ; M. Ionescu. Trans Tech Publications Ltd, 2010. pp. 310-314 (Materials Science Forum).

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title = "Hot deformation behavior of near-α Ti-Fe alloy in (α+β) two-phase region with different Fe content",

abstract = "In the present study, microstructure evolution of Ti-Fe alloys with different Fe content between 0.2-1.5mass% during hot deformation in (α+β) two-phase region is studied with focusing on effect of phase volume fraction at different deformation temperatures and strain rates. Hot deformation was conducted on the specimens quenched after b solutionizing at 1173K for 1.2ks at 1108, 1073 and 948K, by uniaxial compression by 50% at various strain rates ranged from 1 to 10-4 s-1. Initial structures are (α+β) lamellar structures of fine interlamellar spacing and colony sizes. Increase in Fe content results in increasing the fraction of the β phase at the given deformation temperature. Either colony size or interlamellar spacing is coarser at higher temperatures. At the higher deformation temperature where β phase fraction is larger, dynamic recovery of β phase is a major deformation mechanism while at a lower temperature, i.e., a higher α fraction, dynamic recrystallization of α phase occurs predominantly. It is concluded that critical strain needed for occurrence of dynamic recrystallization is decreased by increasing fraction of the α phase at the same deformation temperature, i.e., by decreasing Fe content. Furthermore, by increasing strain rate grain size of the recrystallized α is decreased.",

keywords = "Hot deformation, Recrystallization, Titanium alloy, Ultrafine grained structure",

author = "Behrang Poorganji and Makoto Yamaguchi and Yoshio Itsumi and Katsushi Matsumoto and Tomofumi Tanaka and Yusuke Asa and Goro Miyamoto and Tadashi Furuhara",

year = "2010",

doi = "10.4028/www.scientific.net/MSF.638-642.310",

language = "English",

isbn = "0878492941",

series = "Materials Science Forum",

publisher = "Trans Tech Publications Ltd",

pages = "310--314",

editor = "Tara Chandra and Tara Chandra and Tara Chandra and N. Wanderka and N. Wanderka and N. Wanderka and Walter Reimers and Walter Reimers and Walter Reimers and M. Ionescu and M. Ionescu and M. Ionescu",

booktitle = "THERMEC 2009",

note = "6th International Conference on Processing and Manufacturing of Advanced Materials - THERMEC'2009 ; Conference date: 25-08-2009 Through 29-08-2009",

}

Poorganji, B, Yamaguchi, M, Itsumi, Y, Matsumoto, K, Tanaka, T, Asa, Y, Miyamoto, G & Furuhara, T 2010, Hot deformation behavior of near-α Ti-Fe alloy in (α+β) two-phase region with different Fe content. in T Chandra, T Chandra, T Chandra, N Wanderka, N Wanderka, N Wanderka, W Reimers, W Reimers, W Reimers, M Ionescu, M Ionescu & M Ionescu (eds), THERMEC 2009. Materials Science Forum, vol. 638-642, Trans Tech Publications Ltd, pp. 310-314, 6th International Conference on Processing and Manufacturing of Advanced Materials - THERMEC'2009, Berlin, Germany, 09/8/25. https://doi.org/10.4028/www.scientific.net/MSF.638-642.310

Hot deformation behavior of near-α Ti-Fe alloy in (α+β) two-phase region with different Fe content. / Poorganji, Behrang; Yamaguchi, Makoto; Itsumi, Yoshio et al.
THERMEC 2009. ed. / Tara Chandra; Tara Chandra; Tara Chandra; N. Wanderka; N. Wanderka; N. Wanderka; Walter Reimers; Walter Reimers; Walter Reimers; M. Ionescu; M. Ionescu; M. Ionescu. Trans Tech Publications Ltd, 2010. p. 310-314 (Materials Science Forum; Vol. 638-642).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Hot deformation behavior of near-α Ti-Fe alloy in (α+β) two-phase region with different Fe content

AU - Poorganji, Behrang

AU - Yamaguchi, Makoto

AU - Itsumi, Yoshio

AU - Matsumoto, Katsushi

AU - Tanaka, Tomofumi

AU - Asa, Yusuke

AU - Miyamoto, Goro

AU - Furuhara, Tadashi

PY - 2010

Y1 - 2010

N2 - In the present study, microstructure evolution of Ti-Fe alloys with different Fe content between 0.2-1.5mass% during hot deformation in (α+β) two-phase region is studied with focusing on effect of phase volume fraction at different deformation temperatures and strain rates. Hot deformation was conducted on the specimens quenched after b solutionizing at 1173K for 1.2ks at 1108, 1073 and 948K, by uniaxial compression by 50% at various strain rates ranged from 1 to 10-4 s-1. Initial structures are (α+β) lamellar structures of fine interlamellar spacing and colony sizes. Increase in Fe content results in increasing the fraction of the β phase at the given deformation temperature. Either colony size or interlamellar spacing is coarser at higher temperatures. At the higher deformation temperature where β phase fraction is larger, dynamic recovery of β phase is a major deformation mechanism while at a lower temperature, i.e., a higher α fraction, dynamic recrystallization of α phase occurs predominantly. It is concluded that critical strain needed for occurrence of dynamic recrystallization is decreased by increasing fraction of the α phase at the same deformation temperature, i.e., by decreasing Fe content. Furthermore, by increasing strain rate grain size of the recrystallized α is decreased.

AB - In the present study, microstructure evolution of Ti-Fe alloys with different Fe content between 0.2-1.5mass% during hot deformation in (α+β) two-phase region is studied with focusing on effect of phase volume fraction at different deformation temperatures and strain rates. Hot deformation was conducted on the specimens quenched after b solutionizing at 1173K for 1.2ks at 1108, 1073 and 948K, by uniaxial compression by 50% at various strain rates ranged from 1 to 10-4 s-1. Initial structures are (α+β) lamellar structures of fine interlamellar spacing and colony sizes. Increase in Fe content results in increasing the fraction of the β phase at the given deformation temperature. Either colony size or interlamellar spacing is coarser at higher temperatures. At the higher deformation temperature where β phase fraction is larger, dynamic recovery of β phase is a major deformation mechanism while at a lower temperature, i.e., a higher α fraction, dynamic recrystallization of α phase occurs predominantly. It is concluded that critical strain needed for occurrence of dynamic recrystallization is decreased by increasing fraction of the α phase at the same deformation temperature, i.e., by decreasing Fe content. Furthermore, by increasing strain rate grain size of the recrystallized α is decreased.

KW - Hot deformation

KW - Recrystallization

KW - Titanium alloy

KW - Ultrafine grained structure

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Poorganji B, Yamaguchi M, Itsumi Y, Matsumoto K, Tanaka T, Asa Y et al. Hot deformation behavior of near-α Ti-Fe alloy in (α+β) two-phase region with different Fe content. In Chandra T, Chandra T, Chandra T, Wanderka N, Wanderka N, Wanderka N, Reimers W, Reimers W, Reimers W, Ionescu M, Ionescu M, Ionescu M, editors, THERMEC 2009. Trans Tech Publications Ltd. 2010. p. 310-314. (Materials Science Forum). doi: 10.4028/www.scientific.net/MSF.638-642.310

Hot deformation behavior of near-α Ti-Fe alloy in (α+β) two-phase region with different Fe content

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