Microstructure evolution of ti-5al-5v-5mo-3cr after hot deformation at large and moderate strains

María Cecilia Poletti; Ricardo Buzolin; Sanjev Kumar; Peng Wang; Thierry Franz Jules Simonet-Fotso

doi:10.4028/www.scientific.net/MSF.941.1443

Microstructure evolution of ti-5al-5v-5mo-3cr after hot deformation at large and moderate strains

María Cecilia Poletti^*, Ricardo Buzolin, Sanjev Kumar, Peng Wang, Thierry Franz Jules Simonet-Fotso

^*Corresponding author for this work

Graz University of Technology (90000)

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

Abstract

This work deals with the analysis and modelling of the microstructural evolution of the metastable titanium alloy Ti-5Al-5V-5Mo-3Cr during hot deformation up to moderate and large strains. Experimental flow curves and deformed samples are obtained by hot compression and hot torsion tests using a Gleeble ® 3800 device. The samples are deformed above and below the beta transus temperature and in a wide range of strain rates. Microstructures are characterized after deformation and in-situ water quenching using light optical and scanning electron microscopy and electron back scattered diffraction (EBSD). Dynamic recovery of the beta phase is found to be the main deformation mechanism up to moderated strains. By increasing the strain, continuous dynamic recrystallization (cDRX) is confirmed by the progressive conversion of low angle boundaries into high-angle boundaries. Alpha phase plays a secondary role in the deformation of the material by pinning the movement of beta high angle grain boundaries (HAGB). The evolution of the microstructure is modelled using dislocation density as internal variable in the single β field.

Original language	English
Title of host publication	THERMEC 2018
Editors	R. Shabadi, Tara Chandra, M. Jeandin, Mihail Ionescu, C. Richard
Publisher	Trans Tech Publications Ltd.
Pages	1443-1449
Number of pages	7
ISBN (Print)	9783035712087
DOIs	https://doi.org/10.4028/www.scientific.net/MSF.941.1443
Publication status	Published - 1 Jan 2018
Event	10th International Conference on Processing and Manufacturing of Advanced Materials: Thermec 2018 - Paris, France Duration: 9 Jul 2018 → 13 Jul 2018 https://thermec2018.sciencesconf.org/

Publication series

Name	Materials Science Forum
Volume	941 MSF
ISSN (Print)	0255-5476

Conference

Conference	10th International Conference on Processing and Manufacturing of Advanced Materials
Abbreviated title	THERMEC'2018
Country/Territory	France
City	Paris
Period	9/07/18 → 13/07/18
Internet address	https://thermec2018.sciencesconf.org/

Keywords

Dynamic recovery
Hot deformation
Large plastic deformation
Ti5553

ASJC Scopus subject areas

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

Fields of Expertise

Advanced Materials Science

Access to Document

10.4028/www.scientific.net/MSF.941.1443

Cite this

Poletti, M. C., Buzolin, R., Kumar, S., Wang, P., & Simonet-Fotso, T. F. J. (2018). Microstructure evolution of ti-5al-5v-5mo-3cr after hot deformation at large and moderate strains. In R. Shabadi, T. Chandra, M. Jeandin, M. Ionescu, & C. Richard (Eds.), THERMEC 2018 (pp. 1443-1449). (Materials Science Forum; Vol. 941 MSF). Trans Tech Publications Ltd.. https://doi.org/10.4028/www.scientific.net/MSF.941.1443

Microstructure evolution of ti-5al-5v-5mo-3cr after hot deformation at large and moderate strains. / Poletti, María Cecilia; Buzolin, Ricardo; Kumar, Sanjev et al.
THERMEC 2018. ed. / R. Shabadi; Tara Chandra; M. Jeandin; Mihail Ionescu; C. Richard. Trans Tech Publications Ltd., 2018. p. 1443-1449 (Materials Science Forum; Vol. 941 MSF).

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

Poletti, MC, Buzolin, R, Kumar, S, Wang, P & Simonet-Fotso, TFJ 2018, Microstructure evolution of ti-5al-5v-5mo-3cr after hot deformation at large and moderate strains. in R Shabadi, T Chandra, M Jeandin, M Ionescu & C Richard (eds), THERMEC 2018. Materials Science Forum, vol. 941 MSF, Trans Tech Publications Ltd., pp. 1443-1449, 10th International Conference on Processing and Manufacturing of Advanced Materials, Paris, France, 9/07/18. https://doi.org/10.4028/www.scientific.net/MSF.941.1443

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abstract = "This work deals with the analysis and modelling of the microstructural evolution of the metastable titanium alloy Ti-5Al-5V-5Mo-3Cr during hot deformation up to moderate and large strains. Experimental flow curves and deformed samples are obtained by hot compression and hot torsion tests using a Gleeble {\textregistered} 3800 device. The samples are deformed above and below the beta transus temperature and in a wide range of strain rates. Microstructures are characterized after deformation and in-situ water quenching using light optical and scanning electron microscopy and electron back scattered diffraction (EBSD). Dynamic recovery of the beta phase is found to be the main deformation mechanism up to moderated strains. By increasing the strain, continuous dynamic recrystallization (cDRX) is confirmed by the progressive conversion of low angle boundaries into high-angle boundaries. Alpha phase plays a secondary role in the deformation of the material by pinning the movement of beta high angle grain boundaries (HAGB). The evolution of the microstructure is modelled using dislocation density as internal variable in the single β field.",

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AB - This work deals with the analysis and modelling of the microstructural evolution of the metastable titanium alloy Ti-5Al-5V-5Mo-3Cr during hot deformation up to moderate and large strains. Experimental flow curves and deformed samples are obtained by hot compression and hot torsion tests using a Gleeble ® 3800 device. The samples are deformed above and below the beta transus temperature and in a wide range of strain rates. Microstructures are characterized after deformation and in-situ water quenching using light optical and scanning electron microscopy and electron back scattered diffraction (EBSD). Dynamic recovery of the beta phase is found to be the main deformation mechanism up to moderated strains. By increasing the strain, continuous dynamic recrystallization (cDRX) is confirmed by the progressive conversion of low angle boundaries into high-angle boundaries. Alpha phase plays a secondary role in the deformation of the material by pinning the movement of beta high angle grain boundaries (HAGB). The evolution of the microstructure is modelled using dislocation density as internal variable in the single β field.

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Microstructure evolution of ti-5al-5v-5mo-3cr after hot deformation at large and moderate strains

Abstract

Publication series

Conference

Keywords

ASJC Scopus subject areas

Fields of Expertise

Access to Document

Other files and links

Fingerprint

CD-Laboratory for Design of high-performance alloys by thermomechanical processing

FWF-Torsion von Metallen - Thermomechanical processing of metals at moderate and large strains

Cite this

Microstructure evolution of ti-5al-5v-5mo-3cr after hot deformation at large and moderate strains

Abstract

Publication series

Conference

Keywords

ASJC Scopus subject areas

Fields of Expertise

Access to Document

Other files and links

Fingerprint

Projects

CD-Laboratory for Design of high-performance alloys by thermomechanical processing

FWF-Torsion von Metallen - Thermomechanical processing of metals at moderate and large strains

Cite this