Processing Smart Wires from Cu-Al-Ni System
Abstract
In this paper we present some results concerning plastic deformation applied to shape memory alloy and two most direct characterization methods for shape memory. We work with a copper based alloy- Cu Al13Ni 4. Over eight percent in aluminum the plastic deformation on the copper aluminum alloys is very difficult to do. Our purpose was to obtain the thin wires. The first material shape was cast ingots very fragile. We choose to work with a direct extrusion method because the high fragility of this material required a three dimensional stress compression scheme.
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Literaturhinweise
[1]. Gheorghe,G., Teza de doctorat, Universitatea Dunarea de Jos din Galati.
[2]. Cănănău, N., Teza de doctorat, Universitatea Dunarea de Jos Galati.
[3]. Cananau, N, Gurau, G., Comportarea la deformare a materialelor metalice. Ecuatii constitutive, Editura Evrika, 1996.
[4]. Cănănău, N, Mitoşeriu, O., Researches concerning the heat treatment at special aluminium bronze for shiping propellers, Euromat, Lisabona, Portugalia, 1998, vol. 2, p. 293-298.
[5]. Vlad, M., Teza de doctorat, Universitatea Dunarea de Jos Galati.
[6]. Darel Hudgson, Ming H.Wu and Robert J. Biermann “Shape memory alloys for power connector apllications”.
[7]. Z.G. Wei’ H.Y. Peng; D.Z.Yang\ C.Y Chung and J.K.L.Lai “Reverse transformations in CuAlNiMnTi alloy at elevated temperatures”.
[8]. G.M Loughran; T.W Shield, P.H Leo “Fracture of shape memory CuAlNi single crystals”.
[9]. V.Recarte; J.I. Perez- landazabal, A. Ibarra, M.L. No“High temperature β phase decomposition process in Cu-Al-Ni SMA”.
[10]. J.Font, E,Cesari, J. Muntasell, J.Pons “Thermomechanical cycling in Cu-Al-Ni-based melt-spun shape memory ribbons”.
[11]. R.Gastien, C.E.Corbellani, M.Sade “Thermomechanical aspects of martensitic transformations in CuAlNi single crystals”.
[12]. Ganesh Ganapardy, Abhijit Bhattacharyya “The effect onf isothermal mechanical cycling on Cu-Al-Ni shapememory alloy single crystal wire”.
[13]. K.Otsuka and C.M. Wayman “Shape memory materials”.
[14]. J. Gui, W. H. Zon, D. Zang “X-RAY diffraction study of the reverse martensitic transformation in Cu-Al-Ni-Ti shape memor alloy”.
[15]. A.S. Paula, J.P.H.G. Canejo, R.M.S. Martins, F.M. Braz Fernandes “Effect of thermal cycling on the transformation temperature ranges of Ni-Ti shape memory alloy”.
[2]. Cănănău, N., Teza de doctorat, Universitatea Dunarea de Jos Galati.
[3]. Cananau, N, Gurau, G., Comportarea la deformare a materialelor metalice. Ecuatii constitutive, Editura Evrika, 1996.
[4]. Cănănău, N, Mitoşeriu, O., Researches concerning the heat treatment at special aluminium bronze for shiping propellers, Euromat, Lisabona, Portugalia, 1998, vol. 2, p. 293-298.
[5]. Vlad, M., Teza de doctorat, Universitatea Dunarea de Jos Galati.
[6]. Darel Hudgson, Ming H.Wu and Robert J. Biermann “Shape memory alloys for power connector apllications”.
[7]. Z.G. Wei’ H.Y. Peng; D.Z.Yang\ C.Y Chung and J.K.L.Lai “Reverse transformations in CuAlNiMnTi alloy at elevated temperatures”.
[8]. G.M Loughran; T.W Shield, P.H Leo “Fracture of shape memory CuAlNi single crystals”.
[9]. V.Recarte; J.I. Perez- landazabal, A. Ibarra, M.L. No“High temperature β phase decomposition process in Cu-Al-Ni SMA”.
[10]. J.Font, E,Cesari, J. Muntasell, J.Pons “Thermomechanical cycling in Cu-Al-Ni-based melt-spun shape memory ribbons”.
[11]. R.Gastien, C.E.Corbellani, M.Sade “Thermomechanical aspects of martensitic transformations in CuAlNi single crystals”.
[12]. Ganesh Ganapardy, Abhijit Bhattacharyya “The effect onf isothermal mechanical cycling on Cu-Al-Ni shapememory alloy single crystal wire”.
[13]. K.Otsuka and C.M. Wayman “Shape memory materials”.
[14]. J. Gui, W. H. Zon, D. Zang “X-RAY diffraction study of the reverse martensitic transformation in Cu-Al-Ni-Ti shape memor alloy”.
[15]. A.S. Paula, J.P.H.G. Canejo, R.M.S. Martins, F.M. Braz Fernandes “Effect of thermal cycling on the transformation temperature ranges of Ni-Ti shape memory alloy”.
Veröffentlicht
2006-05-15
Zitationsvorschlag
1.
GURAU C, GURAU G. Processing Smart Wires from Cu-Al-Ni System. The Annals of “Dunarea de Jos” University of Galati. Fascicle IX, Metallurgy and Materials Science [Internet]. 15Mai2006 [zitiert 2Mai2025];29(1):49-3. Available from: https://www.gup.ugal.ro/ugaljournals/index.php/mms/article/view/3227
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