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Philosophical Magazine A Volume 75, 1997 - Issue 1
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Original Articles

Apparent Hall-Petch effects in polycrystalline lamellar TiAl

Bimal K. Kad Department of Applied Mechanics & Engineering Sciences, University of California-San Diego, La Jolla, California, 92093-0411, USA
&
Robert J. Asaro Department of Applied Mechanics & Engineering Sciences, University of California-San Diego, La Jolla, California, 92093-0411, USA
Pages 87-104 | Received 01 Nov 1995, Accepted 16 May 1996, Published online: 20 Aug 2006

Citations (26)

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Guoming Zheng, Bin Tang, Wei Chen, Songkuan Zhao, Yizhen Xie, Xiaofei Chen, Jinshan Li & Lei Zhu. (2023) Long-period stacking ordering induced ductility of nanolamellar TiAl alloy at elevated temperature. Materials Research Letters 11:6, pages 414-421.
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T.E.J. Edwards. (2018) Recent progress in the high-cycle fatigue behaviour of γ-TiAl alloys. Materials Science and Technology 34:16, pages 1919-1939.
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J.E. Butzke & S. Bargmann. (2015) Thermomechanical modelling of polysynthetically twinned TiAl crystals. Philosophical Magazine 95:24, pages 2607-2626.
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Kyosuke Kishida, Haruyuki Inui & Masaharu Yamaguchi. (1998) Deformation of lamellar structure in TiAl-Ti3Al two-phase alloys. Philosophical Magazine A 78:1, pages 1-28.
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Articles from other publishers (22)

Jan E. Schnabel & Ingo Scheider. (2021) Crystal Plasticity Modeling of Creep in Alloys with Lamellar Microstructures at the Example of Fully Lamellar TiAl. Frontiers in Materials 7.
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Thomas Edward James Edwards, Fabio Di Gioacchino & William John Clegg. (2021) High resolution digital image correlation mapping of strain localization upon room and high temperature, high cycle fatigue of a TiAl intermetallic alloy. International Journal of Fatigue 142, pages 105905.
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Liu Chen, Thomas Edward James Edwards, Fabio Di Gioacchino, William John Clegg, Fionn P.E. Dunne & Minh-Son Pham. (2019) Crystal plasticity analysis of deformation anisotropy of lamellar TiAl alloy: 3D microstructure-based modelling and in-situ micro-compression. International Journal of Plasticity 119, pages 344-360.
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Antoine Guitton, Hana Kriaa, Emmanuel Bouzy, Julien Guyon & Nabila Maloufi. (2018) A Dislocation-Scale Characterization of the Evolution of Deformation Microstructures around Nanoindentation Imprints in a TiAl Alloy. Materials 11:2, pages 305.
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Thomas Edward James Edwards, Fabio Di Gioacchino, Rocío Muñoz-Moreno & William John Clegg. (2017) The interaction of borides and longitudinal twinning in polycrystalline TiAl alloys. Acta Materialia 140, pages 305-316.
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F. Appel, H. Clemens & F.D. Fischer. (2016) Modeling concepts for intermetallic titanium aluminides. Progress in Materials Science 81, pages 55-124.
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Fritz Appel, Jonathan David Heaton Paul & Michael Oehring. 2011. Gamma Titanium Aluminide Alloys. Gamma Titanium Aluminide Alloys 573 682 .
C. Zambaldi, F. Roters & D. Raabe. (2011) Analysis of the plastic anisotropy and pre-yielding of (γ/α2)-phase titanium aluminide microstructures by crystal plasticity simulation. Intermetallics 19:6, pages 820-827.
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M. Werwer & A. Cornec. (2006) The role of superdislocations for modeling plastic deformation of lamellar TiAl. International Journal of Plasticity 22:9, pages 1683-1698.
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H. -G. Brokmeier, M. Oehring, U. Lorenz, F. Appel & H. Clemens. (2004) Neutron diffraction study of texture development during hot working of different gamma-titanium aluminide alloys. Metallurgical and Materials Transactions A 35:11, pages 3563-3579.
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F. Appel, M. Oehring, J.D.H. Paul, Ch. Klinkenberg & T. Carneiro. (2004) Physical aspects of hot-working gamma-based titanium aluminides. Intermetallics 12:7-9, pages 791-802.
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Robert A. Brockman. (2003) Analysis of elastic-plastic deformation in TiAl polycrystals. International Journal of Plasticity 19:10, pages 1749-1772.
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G.J Frank, S.E Olson & R.A Brockman. (2003) Numerical models of orthotropic and lamellar grain structures. Intermetallics 11:4, pages 331-340.
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F. Appel & M. Oehring. 2002. Titan und Titanlegierungen. Titan und Titanlegierungen 39 103 .
Dennis M. Dimiduk, Tiplicane A. Parthasarathy & Peter M. Hazzledine. (2001) Design-tool representations of strain compatibility and stress-strain relationships for lamellar gamma titanium aluminides. Intermetallics 9:10-11, pages 875-882.
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M. Werwer & A. Cornec. (2000) Numerical simulation of plastic deformation and fracture in polysynthetically twinned (PST) crystals of TiAl. Computational Materials Science 19:1-4, pages 97-107.
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F. Appel, M. Oehring & R. Wagner. (2000) Novel design concepts for gamma-base titanium aluminide alloys. Intermetallics 8:9-11, pages 1283-1312.
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M. Yamaguchi, H. Inui & K. Ito. (2000) High-temperature structural intermetallics. Acta Materialia 48:1, pages 307-322.
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F. Appel & R. Wagner. (1998) Microstructure and deformation of two-phase γ-titanium aluminides. Materials Science and Engineering: R: Reports 22:5, pages 187-268.
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K. Kishida, D.R. Johnson, Y. Masuda, H. Umeda, H. Inui & M. Yamaguchi. (1998) Deformation and fracture of PST crystals and directionally solidified ingots of TiAl-based alloys. Intermetallics 6:7-8, pages 679-683.
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M.H. Yoo. (1998) Twinning and mechanical behavior of titanium aluminides and other intermetallics. Intermetallics 6:7-8, pages 597-602.
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Dennis M. Dimiduk, Peter M. Hazzledine, Triplicane A. Parthasarathy, Madan G. Mendiratta & Sriram Seshagiri. (1998) The role of grain size and selected microstructural parameters in strengthening fully lamellar TiAl alloys. Metallurgical and Materials Transactions A 29:1, pages 37-47.
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