Portal de Periódicos da CAPES

Influence of volume fraction and dispersion rate of grain-boundary cementite on the cold-rolling textures of low-carbon steel

1992; Wiley; Volume: 63; Issue: 6 Linguagem: Inglês

10.1002/srin.199200512

0177-4832

Christian Klinkenberg, Dierk Raabe, Kurt Lücke,

Advanced materials and composites

Steel ResearchVolume 63, Issue 6 p. 263-269 Materials technology Influence of volume fraction and dispersion rate of grain-boundary cementite on the cold-rolling textures of low-carbon steel Dr.-Ing. Christian Klinkenberg, Dr.-Ing. Christian Klinkenberg Hoesch Stahl AG, DortmundSearch for more papers by this authorDipl.-Ing. Dierk Raabe, Dipl.-Ing. Dierk Raabe Institut für Metallkunde und Metallphysik, RWTH Aachen, GermanySearch for more papers by this authorProfessor Dr. Dr. h.c. Kurt Lücke, Professor Dr. Dr. h.c. Kurt Lücke Institut für Metallkunde und Metallphysik, RWTH Aachen, GermanySearch for more papers by this author Dr.-Ing. Christian Klinkenberg, Dr.-Ing. Christian Klinkenberg Hoesch Stahl AG, DortmundSearch for more papers by this authorDipl.-Ing. Dierk Raabe, Dipl.-Ing. Dierk Raabe Institut für Metallkunde und Metallphysik, RWTH Aachen, GermanySearch for more papers by this authorProfessor Dr. Dr. h.c. Kurt Lücke, Professor Dr. Dr. h.c. Kurt Lücke Institut für Metallkunde und Metallphysik, RWTH Aachen, GermanySearch for more papers by this author First published: June 1992 https://doi.org/10.1002/srin.199200512Citations: 18AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat Abstracten On the technical background of elevated coiling temperatures the influence of the precipitated volume fraction and of the dispersion rate of grain boundary cementite on cold-rolling textures in low carbon steel was investigated. Whilst different dispersion rates with constant cementite volume do not reveal any distinct influence, the rolling texture is lowered by increasing the precipitated volume fraction of cementite. Abstractde Vor dem technischen Hintergrund erhöhter Haspeltemperaturen wurde der Einfluß des ausgeschiedenen Volumenanteiles, sowie des Dispersiongrades von Korngrenzenzementit in niedriggekohltem Stahl auf die Kaltwalztexturen untersucht. Während unterschiedliche Dispersionen bei gleichem Ausscheidungsvolumen nur einen geringen Einfluß ausüben, nimmt die Texturschärfe mit zunehmendem Zementitvolumen deutlich ab. References 1 B. L. Brammfil; P. L. Mangnon (ed.): " Metallurgy of Continuous-Annealed Sheet Steel", Metal Society of AIME, 1982. 2Hutchinson, W. B.: Proc. Int. Symposium "Continuous Annealing of Steel" (1984), Swedish Institute for Metals Research, Stockholm, Sweden, Metal Society of AIME. 3Hutchinson, W. B.; Ushioda, J.: Scand. Journ. Metallurgy 13 (1984), p. 269/75. 4Ushioda, K.; Hutchinson, W. B.; Ågren, J.; Schlippenbach, U. v.: Met. Sci. and Techn. (1986), p. 807/15. 5Ono, S.; Delaneau, P.; Thomas, B.: Proc. 7th Conf. Textures of Materials (Icotom 7), Netherlands (1984), p. 359/65. 6Inagaki, H.: Z. Metallkde. 78 (1987) No. 9, p. 630/38. 7Humphreys, F. J.: Acta metall. 25 (1977), p. 1323/344. 8Humphreys, F. J.: Acta metall. 27 (1979), p. 1801/814. 9Orsund, R.; Nes, E.: Scripta Met. 22 (1988), p. 671/76. 10Schlippenbach, U. v.; Emren, F.; Lücke, K.: Acta metall. 34 (1986) No. 7, p. 1289/301. 11Raphanel, J. L.; Houtte, P. v.: Acta metall. 33 (1985) No. 8, p. 1481/488. 12Arminion, M.: Acta metall. 35 (1987) No. 3, p. 615/30. 13Österle, J.; Wever, H.; Bunge, H. J.: Met. Sci. 17 (1983), p. 333/40. 14Hatherly, M.: Malin, A. S.: Scripta Met. 18 (1984), p. 449/54. 15Dymek, S.; Blicharski, M.: Z. Metallkde. 76 (1985) No. 12, p. 777/85. 16Jago, R. A.; Hansen, N.: Acta metall. 34 (1986) No. 9, p. 1711/720. 17Haratani, T.; Hutchinson, W. B.; Dillamore, I. L.; Bate, P.: Met. Sci. 18 (1984), p. 57/65. 18Bunge, H. J.: "Texture Analysis in materials Science", Butterworths, London (1982). 19Brooker, G. R.: "Modern Diffraction and Imaging Techniques in Materials Science", S. Amelinckx, R. Gevers, G. Remaut, J. Landuy [eds.:], North Holland Publishing Company, Amsterdam-London, 1970. 20Hirsch, J.; Loeck, M.; Loof, L.: Proc. 7th Conf. Textures of Materials (Icotom 7), (1984), p. 765. 21Pospiech, J.; Jura, J.: Z. Metallkde. 65 (1974), p. 324/30. 22Schlippenbach, U. v.; Lücke, K.: 8th Conf. Textures of Materials (Icotom 8), USA, (1987), p. 861/66. 23Klinkenberg, C.; Moussy, F.; Delaneau, P.; Thomas, B.: Mem. Sci. Rev. Sept. (1987), p. 88. 24Matthies, S.: "Aktuelle Probleme der quantitativen Texturanalyse", ZfK Dresden, ZfK-480, August 1982. 25Jura, J.; Lücke, K.; Schlippenbach, U. v.: 8th Conf. Textures of Materials (ICOTOM 8), USA (1987), p. 123/28. 26Lücke, K.; Pospiech, J.; Jura, J.; Hirsch, J.: Z. Metallkde 77 (1986) No. 5, p. 312/21. 27Dillamore, I. L.; Katoh, H.: BISRA report MG/39/71, 1971. 28Hölscher, M.; Raabe, D.; Lücke, K.: steel res 62 (1991) No. 12, p. 567/75. 29Lücke, K.; Hirsch, J.; Engler, O.; Rickert, T.: Proc. Int. Conf. "Alluminium alloys – physical and mechanical properties", [ed.:] E. Starke, Charlotteville, Virginia (1986), p. 1741. 30Musick, R.; Lücke, K.: Proc. Icotom 5, "Textures of Materials" [eds.:] G. Gottstein, K. Lücke, Vol. II, p. 433, Aachen, Springer Verlag Berlin (1978). 31Sandstrøm, R.: [in:] " Recrystallization and Grain Growth of multiphase and particle containing materials", 1st Proc. Risø, Roskhilde, Denmark, (1980), p. 45. 32Humphreys, F. J.: p. 35 in 31). Citing Literature Volume63, Issue6June 1992Pages 263-269 ReferencesRelatedInformation