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.
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
© 2011, Carl Hanser Verlag, München
