Hot Deformation of Cast and Extruded TiAl: An In-situ Diffraction Study

T Schmoelzer; KD Liss; S Mayer; K Yan; M Reid; R Dippenaar; MJ Peel; H Clemens

doi:10.4028/www.scientific.net/MSF.706-709.1725

Hot Deformation of Cast and Extruded TiAl: An In-situ Diffraction Study

T Schmoelzer, KD Liss, S Mayer, K Yan, M Reid, R Dippenaar, MJ Peel, H Clemens

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

1 Citation (Scopus)

Abstract

Intermetallic TiAl alloys are a class of innovative high-temperature materials which are developed to replace the substantially denser Ni-base alloys in low-pressure turbine blades of jet engines. By streamlining the production process of these parts, a substantial decrease in production costs can be achieved. To this end, a profound knowledge of the microstructural processes occurring during hot deformation is a prerequisite. To investigate the microstructural development during forming operations, cast and extruded as well as only cast specimens were hot-deformed and the microstructural development investigated in-situ by means of a novel diffraction method. This powder diffraction method utilizes the behavior of individual reflection spots on the Debye-Scherrer rings for deriving the materials response to the deformation imposed. It was found that the behavior of the two specimens is rather similar, although the starting microstructures show pronounced differences.

Translated title of the contribution	Hot Deformation of Cast and Extruded TiAl: An In-situ Diffraction Study
Original language	English
Title of host publication	Materials Science Forum
Subtitle of host publication	THERMEC’20117th International conference on advanced materials
Editors	T Chandra, M Ionescu, D Mantovani
Publisher	Trans Tech Publications Inc
Pages	1725-1730
Volume	706-709
DOIs	https://doi.org/10.4028/www.scientific.net/MSF.706-709.1725
Publication status	Published - 2012

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Schmoelzer, T., Liss, KD., Mayer, S., Yan, K., Reid, M., Dippenaar, R., Peel, MJ., & Clemens, H. (2012). Hot Deformation of Cast and Extruded TiAl: An In-situ Diffraction Study. In T. Chandra, M. Ionescu, & D. Mantovani (Eds.), Materials Science Forum: THERMEC’20117th International conference on advanced materials (Vol. 706-709, pp. 1725-1730). Trans Tech Publications Inc. https://doi.org/10.4028/www.scientific.net/MSF.706-709.1725

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title = "Hot Deformation of Cast and Extruded TiAl: An In-situ Diffraction Study",

abstract = "Intermetallic TiAl alloys are a class of innovative high-temperature materials which are developed to replace the substantially denser Ni-base alloys in low-pressure turbine blades of jet engines. By streamlining the production process of these parts, a substantial decrease in production costs can be achieved. To this end, a profound knowledge of the microstructural processes occurring during hot deformation is a prerequisite. To investigate the microstructural development during forming operations, cast and extruded as well as only cast specimens were hot-deformed and the microstructural development investigated in-situ by means of a novel diffraction method. This powder diffraction method utilizes the behavior of individual reflection spots on the Debye-Scherrer rings for deriving the materials response to the deformation imposed. It was found that the behavior of the two specimens is rather similar, although the starting microstructures show pronounced differences.",

author = "T Schmoelzer and KD Liss and S Mayer and K Yan and M Reid and R Dippenaar and MJ Peel and H Clemens",

year = "2012",

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Schmoelzer, T, Liss, KD, Mayer, S, Yan, K, Reid, M, Dippenaar, R, Peel, MJ & Clemens, H 2012, Hot Deformation of Cast and Extruded TiAl: An In-situ Diffraction Study. in T Chandra, M Ionescu & D Mantovani (eds), Materials Science Forum: THERMEC’20117th International conference on advanced materials. vol. 706-709, Trans Tech Publications Inc, pp. 1725-1730. https://doi.org/10.4028/www.scientific.net/MSF.706-709.1725

Hot Deformation of Cast and Extruded TiAl: An In-situ Diffraction Study. / Schmoelzer, T; Liss, KD; Mayer, S et al.
Materials Science Forum: THERMEC’20117th International conference on advanced materials. ed. / T Chandra; M Ionescu; D Mantovani. Vol. 706-709 Trans Tech Publications Inc, 2012. p. 1725-1730.

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

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T1 - Hot Deformation of Cast and Extruded TiAl: An In-situ Diffraction Study

AU - Schmoelzer, T

AU - Liss, KD

AU - Mayer, S

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AU - Peel, MJ

AU - Clemens, H

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N2 - Intermetallic TiAl alloys are a class of innovative high-temperature materials which are developed to replace the substantially denser Ni-base alloys in low-pressure turbine blades of jet engines. By streamlining the production process of these parts, a substantial decrease in production costs can be achieved. To this end, a profound knowledge of the microstructural processes occurring during hot deformation is a prerequisite. To investigate the microstructural development during forming operations, cast and extruded as well as only cast specimens were hot-deformed and the microstructural development investigated in-situ by means of a novel diffraction method. This powder diffraction method utilizes the behavior of individual reflection spots on the Debye-Scherrer rings for deriving the materials response to the deformation imposed. It was found that the behavior of the two specimens is rather similar, although the starting microstructures show pronounced differences.

AB - Intermetallic TiAl alloys are a class of innovative high-temperature materials which are developed to replace the substantially denser Ni-base alloys in low-pressure turbine blades of jet engines. By streamlining the production process of these parts, a substantial decrease in production costs can be achieved. To this end, a profound knowledge of the microstructural processes occurring during hot deformation is a prerequisite. To investigate the microstructural development during forming operations, cast and extruded as well as only cast specimens were hot-deformed and the microstructural development investigated in-situ by means of a novel diffraction method. This powder diffraction method utilizes the behavior of individual reflection spots on the Debye-Scherrer rings for deriving the materials response to the deformation imposed. It was found that the behavior of the two specimens is rather similar, although the starting microstructures show pronounced differences.

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Schmoelzer T, Liss KD, Mayer S, Yan K, Reid M, Dippenaar R et al. Hot Deformation of Cast and Extruded TiAl: An In-situ Diffraction Study. In Chandra T, Ionescu M, Mantovani D, editors, Materials Science Forum: THERMEC’20117th International conference on advanced materials. Vol. 706-709. Trans Tech Publications Inc. 2012. p. 1725-1730 doi: 10.4028/www.scientific.net/MSF.706-709.1725

Hot Deformation of Cast and Extruded TiAl: An In-situ Diffraction Study

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