Production aspects of ductility minimum emperature dmt phenomenon in as cast CuNi25 alloy
About authors
- 1 — Silesian University of Technology
- 2 — Silesian University of Technology
- 3 — Silesian University of Technology
Abstract
The paper gives an overview of the phenomenon of minimum ductility temperature (MTD) in single-phase copper-nickel alloy. The influence of this phenomenon on environmental and economic aspects of production is presented. The authors characterized the behavior of these materials in high-temperature tensile tests and described possible causes of this effect. High-temperature ductility tests proved the existence of a relationship between microstructure, strain rate and the magnitude of the ductility temperature minimum phenomenon.
References
- F.N. Rhines, P.J. Wray, Trans. AMS 54 (1961) 118.
- J.P. Chubb, J. Bilingham, Metals Tech. (1978), 100.
- S.A. Gavin, Met. Tech. 11 (1979) 397-401.
- R. Nowosielski, Mechanika (135), Wydaw. Pol. Sl., Gliwice, 2000 (in Polish).
- W. Ozgowicz, Proceedings of the 10th Int. Science Conference on AMME’01, Gliwice, 2001, p.411.
- Z. Mohamed, Mater. Sci. Eng. (2001).
- E.M. Taleff, JOM (1999) 33.
- S.A. Brown, K.S. Kumar, J. Mater. Res. 8 (1993) 1763.
- W.C. Porr, Dissert. Abst. Int. 8 (1993) 58.
- A.S. Wagh, L.N. Ezegnunam, Scripta Metal. 18 (1994) 933.
- A. Muto, S. Goto, M. Tagami, S. Aso, J. Jpn. Inst. Met. 58 (1994) 1461.
- L.W. Cepeda, J.M. Rodriguez-Ibabe, J.J. Urcola, Zat. Metall. 11 (1992) 801.
- A. Darsouni, B. Bauzabata, F. Moutlaillet, J. Physique 5 (7) (1995) 347.
- E.P. Georg, D.P. Pope Sklenicka, V Conf. Proc.Clean Steel Technology, Illinois, 2-5 November, 1992, p.17.
- H. Yagamata, O. Izumi, J. Jpn. Inst. Met. 58 (1978) 146.
- C. Ouchi, K. Matsumoto, Trans. ISIJ 22 (1982) 181.
- H.J. Frost and M.F. Ashby, Deformation – Mechanism Maps, Pergamon Press, 1989.
- R. Nowosielski, P. Sakiewicz, P. Gramatyka, Journal of Materials Processing Technology 162-163 (2005) 379-384.
- F. Inoko, T. Okada, T. Nishimura and M. Ohomori, Interface SCIENCE 7, 131-140 (1999).
- Tadao Watanabe, Sadahiro Tsurekawa, Materials Science and Engineering A 387-389 (2004) 447-455.
- W. Briickner, V. Weihnacht, J. Appl. Phys. 7 (85) (1999).
- T. Watanabe, S. Tsurekawa, Materials Science and Engineering A 387-389 (2004) 447-455.
- T. Watanabe, Res. Mechanica 11 (1) (1984) 47-84.
- B. Druyanov , I. Roman, Mechanics of Materials 30 (1998) 31-40.
- D.R. Wilson,1972,. Structure of Liquid Metals and Alloys. Wiley, New York.
- R. Krishnamurthy, D.J. Srolovitz, Acta Materialia 52 (2004) 3761-3780.
- J.H. Zhu, C.T. Liu, Intermetallics 10 (2002) 309-316.
- F. Inoko, T. Okada, T. Nishimura and M. Ohomori, Interface Science 7, 131-140 (1999).
- A. Mwembela, E.V. Konopleva, H.J. McQueen, Scripta Metall. Mater. 37 (1997) 1789–1795.
- M.E. Kassner, N.Q. Nguyen, G.A. Henshall, H.J. McQueen, Mater, Sci. Eng. A132 (1991) 97-105.
- H.J. McQueen, Defects, Fracture and Fatigue, Marinus Nijhoff Pub., The Hague, 1983, p.459-471 (Mont. Gabriel, May 1982).
- W. Ozgowicz, Proceedings of the 10th International Science Conference on AMME’01, Gliwice, 2001, p.411.
- R. Luke, J. Bankmann, P.J. Wilbrandt, Scripta Mater. 39 (1998) 73–75.
- D.B. Butrymowicz, T.J. Picconr, J.R. Manning, D.E. Newbury, Metalography 16 (1983) 349.
- L.A. Dobrzański Podstawy Nauki o Materiałach i Metaloznawstwo, WNT Warszawa. 2002.
- W. Brückner, V. Weihnacht, Journal of Applied Physics V85, N 7, 1 April 1999
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