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The origin and development of the P{011}<111> orientation during recrystallization of particle-containing alloys

Dedicated to Prof. Dr.-Ing. Heinrich Wollenberger on the occasion of his 80th birthday
  • Carmen Schäfer and Günter Gottstein
Published/Copyright: May 18, 2013
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International Journal of Materials Research
From the journal International Journal of Materials Research Volume 102 Issue 9

Abstract

During annealing of particle-containing aluminum alloys, very often the development of the so-called P {011}<111>-texture and ND-rotated Cube {001}<310>-texture components are observed. The present paper focuses on the origin of the P-component near particles in an Al-1.1 wt.% Mn alloy and its further evolution during annealing. It is shown that the occurrence of these components depends on the annealing treatment rather than on the absolute annealing temperature.

Keywords: Recrystallization; Particle-stimulated nucleation; Recovery; Precipitation
Correspondence address, Dr.-Ing. Carmen Schäfer, Institut fr Metallkunde und Metallphysik, Kopernikusstr. 14, D-52074 Aachen, Germany, Tel.: +49241 8026877, Fax: +49241 8022301, E-mail:

References

[1] K.C.Russell, M.F.Ashby: Acta Metall.18 (1970) 891.10.1016/0001-6160(70)90017-9Search in Google Scholar

[2] M.F.Ashby: Phil. Mag.21 (1970) 399.10.1080/14786437008238426Search in Google Scholar

[3] F.J.Humphreys: Acta Metall.25 (1977) 1323.10.1016/0001-6160(77)90109-2Search in Google Scholar

[4] P.Herbst, J.Huber, in: G.Gottstein, K.Lücke (Eds.), Texture of Metallic Materials, Vol. 1, Springer Verlag, Berlin (1978) 453.10.1007/978-3-642-81313-9_43Search in Google Scholar

[5] B.Bay, N.Hansen: Metall. Trans. A10 (1979) 279.Search in Google Scholar

[6] J.Liu, J.G.Morris: Metall. Trans. A34 (2003) 2029.10.1007/s11661-003-0169-ySearch in Google Scholar

[7] F.Haessner, E.Hornbogen, M.Mukherjee: Z. Metallkd., 57 (1966) 171.Search in Google Scholar

[8] F.J.Humphreys, M.G.Ardakani: Acta Metall. Mater.42 (1994) 749.10.1016/0956-7151(94)90272-0Search in Google Scholar

[9] M.G.Ardakani, F.J.Humphreys: Acta Metall.42 (1994) 763.10.1016/0956-7151(94)90273-9Search in Google Scholar

[10] M.Ferry, F.J.Humphreys: Acta Mater.44 (1996) 3089.10.1016/1359-6454(95)00432-7Search in Google Scholar

[11] M.Ferry, F.J.Humphreys: Mater. Sci. Forum217-222 (1996) 493.10.4028/www.scientific.net/MSF.217-222.493Search in Google Scholar

[12] F.J.Humphreys, M.Hatherly: Recrystallization and related annealing phenomena, Elsevier, Oxford (2004).Search in Google Scholar

[13] O.Engler, X.W.Kong, P.Yang: Scripta Mater.37 (1997) 1665.10.1016/S1359-6462(97)00315-1Search in Google Scholar

[14] O.Engler, J.Hirsch, K.Lücke: Acta Metall. Mater.43 (1995) 121.Search in Google Scholar

[15] O.Engler: Tex. and Microstructures23 (1995) 61.10.1155/TSM.23.61Search in Google Scholar

[16] O.Engler, P.Yang, X.W.Kong: Acta Mater.44 (1996) 3349.10.1016/1359-6454(95)00416-5Search in Google Scholar

[17] K.Lücke, O.Engler: Mat. Sci. Tech.6 (1990) 1113.10.1179/026708390790190009Search in Google Scholar

[18] O.Engler: Mat. Sci. Tech.12 (1996) 859.10.1179/026708396790122206Search in Google Scholar

[19] D.Juul Jensen, N.Hansen, Y.L.Liu: Mat. Sci. and Tech.2 (1991) 369.10.1179/026708391790183330Search in Google Scholar

[20] K.Lücke, O.Engler, in: L.Arnberg, O.Lohne, E.Nes, N.Ryum (Eds.), Proc. ICAA3, Vol. III, Norway (1992) 439.Search in Google Scholar

[21] K.Sjølstad, O.Engler, S.Tangen, K.Marthinsen, E.Nes: Mater. Sci. Forum408–412 (2002) 1471.10.4028/www.scientific.net/MSF.408-412.1471Search in Google Scholar

[22] O.Daaland, E.Nes: Acta Mater.44 (1996) 1413.10.1016/1359-6454(95)00290-1Search in Google Scholar

[23] H.E.Vatne, S.Benum, O.Daaland, E.Nes: Tex. and Microstructures26-27 (1996) 385.10.1155/TSM.26-27.385Search in Google Scholar

[24] M.Somerday, F.J.Humphreys: Mater. Sci. Techn.19 (2003) 20.Search in Google Scholar

[25] W.C.Liu, J.G.Morris: Metall. Mater. Trans. A36 (2005) 2829.10.1007/s11661-005-0279-9Search in Google Scholar

[26] M.Dahms, H.J.Bunge: Tex. and Microstructures 8, 9 (1988) 97.10.1155/TSM.8-9.97Search in Google Scholar

[27] K.Lücke, J.Pospiech, K.H.Virnich, J.Jura: Acta Metall.29 (1981) 167.10.1016/0001-6160(81)90097-3Search in Google Scholar

[28] K.H.Virnich, J.Pospiech, A.Flemmer, K.Lücke, in: G.Gottstein, K.Lücke (Eds.), ICOTOM 5, Vol. 1, Springer, Berlin (1978) 129.10.1007/978-3-642-81313-9_9Search in Google Scholar

[29] W.Truszkowski, J.Pospiech, J.Jura, B.Major, in: Proc. of the 3àme colloque européen sur les textures de deformation et de recristallisation des métaux et leurs aaplications industrielles, Pont-à-Mousson (1973) 235.Search in Google Scholar

[30] R.Fortunier, J.Hirsch, in: H.J. Bunge (Ed.), Theoretical Methods of Texture Analysis (1987) 231.Search in Google Scholar

[31] H.J.Bunge: Texture Analysis in Materials Science, Butterworths, London (1982).Search in Google Scholar

[32] C.Schäfer, J.Song, G.Gottstein: Acta Mater.57 (2009) 1026.10.1016/j.actamat.2008.10.052Search in Google Scholar

[33] J.Pospiech, K.Lücke: Acta Metall.23 (1975) 997.10.1016/0001-6160(75)90014-0Search in Google Scholar

[34] J.Jura, in: H.J.Bunge, R.Penelle, C.Esling (Eds.), ICOTOM 9, Avignon, France, Textures Microstructures14–18 (1991) 193.10.1155/TSM.14-18.193Search in Google Scholar

[35] E.Nes: Aluminium52 (1976) 560.10.1111/j.1751-0813.1976.tb05420.xSearch in Google Scholar

[36] P.Furrer, H.Warlimont: Aluminium54 (1978) 135.Search in Google Scholar

[37] C.C.Bampton, J.A.Wert, M.W.Mahoney: Metall. Trans. A13 (1982) 193.Search in Google Scholar

[38] S.Tangen: Deformation and annealing behaviour of commercial non-heat treatable aluminium alloys, Doctoral Thesis, NTNU, Norway (2004).Search in Google Scholar

[39] W.C.Liu, Z.Li, C.-S.Man: Mater. Sci. Eng. A478 (2008) 173.10.1016/j.msea.2007.05.107Search in Google Scholar

[40] P.van Houtte: Acta Metall. Mater.43 (1995) 2859.10.1016/0956-7151(94)00479-2Search in Google Scholar

[41] S.Tangen, K.Sjølstad, E.Nes, T.Furu, K.Marthinsen: Mater. Sci. Forum396–402 (2002) 469.10.4028/www.scientific.net/MSF.396-402.469Search in Google Scholar

Received: 2010-11-9
Accepted: 2011-7-1
Published Online: 2013-05-18
Published in Print: 2011-09-01

© 2011, Carl Hanser Verlag, München

Articles in the same Issue

  1. Contents
  2. Contents
  3. Editorial
  4. Prof. Dr.-Ing. Heinrich Wollenberger — 80 years
  5. Original Contributions
  6. Atom probe tomography: from physical metallurgy towards microelectronics
  7. Accumulation of radiation damage and disordering in MgAl2O4 under swift heavy ion irradiation
  8. TEM study of irradiation induced copper precipitation in boron alloyed EUROFER97 steel
  9. Order – disorder transformation in Ni – V alloys under electron irradiation
  10. Materials issues of the SINQ high-power spallation target
  11. The origin and development of the P{011}<111> orientation during recrystallization of particle-containing alloys
  12. Coarsening kinetics of Cu-rich precipitates in a concentrated multicomponent Fe–Cu based steel
  13. Beyond Ni-based superalloys: Development of CoRe-based alloys for gas turbine applications at very high temperatures
  14. The effect of heat treatments on the microstructure, texture and mechanical properties of the extruded magnesium alloy ME21
  15. Analysing SANS data to determine magnetisation reversal processes in composite perpendicular magnetic recording media using TEM images
  16. Dislocationless sliding in a polycluster glass
  17. Evolution of transformation plasticity during bainitic transformation
  18. Surface tension and viscosity of NiAl catalytic precursor alloys from microgravity experiments
  19. Synthesis of carbon nanotubes by fine Ni particles in Ni3Al foam
  20. Fabrication of dielectric thin films by sputtering deposition at different pressures with (Ba0.3Sr0.7)(Zn1/3Nb2/3)O3 ceramic as target
  21. DGM News
  22. DGM News
https://doi.org/10.3139/146.110567
Keywords for this article
Recrystallization; Particle-stimulated nucleation; Recovery; Precipitation

Articles in the same Issue

  1. Contents
  2. Contents
  3. Editorial
  4. Prof. Dr.-Ing. Heinrich Wollenberger — 80 years
  5. Original Contributions
  6. Atom probe tomography: from physical metallurgy towards microelectronics
  7. Accumulation of radiation damage and disordering in MgAl2O4 under swift heavy ion irradiation
  8. TEM study of irradiation induced copper precipitation in boron alloyed EUROFER97 steel
  9. Order – disorder transformation in Ni – V alloys under electron irradiation
  10. Materials issues of the SINQ high-power spallation target
  11. The origin and development of the P{011}<111> orientation during recrystallization of particle-containing alloys
  12. Coarsening kinetics of Cu-rich precipitates in a concentrated multicomponent Fe–Cu based steel
  13. Beyond Ni-based superalloys: Development of CoRe-based alloys for gas turbine applications at very high temperatures
  14. The effect of heat treatments on the microstructure, texture and mechanical properties of the extruded magnesium alloy ME21
  15. Analysing SANS data to determine magnetisation reversal processes in composite perpendicular magnetic recording media using TEM images
  16. Dislocationless sliding in a polycluster glass
  17. Evolution of transformation plasticity during bainitic transformation
  18. Surface tension and viscosity of NiAl catalytic precursor alloys from microgravity experiments
  19. Synthesis of carbon nanotubes by fine Ni particles in Ni3Al foam
  20. Fabrication of dielectric thin films by sputtering deposition at different pressures with (Ba0.3Sr0.7)(Zn1/3Nb2/3)O3 ceramic as target
  21. DGM News
  22. DGM News
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