TY - JOUR
T1 - Phase equilibria and phase transformation of the body-centered cubic phase in the Cu-rich portion of the Cu-Ti-Al system
AU - Liu, X. J.
AU - Wang, C. P.
AU - Ohnuma, Ikuo
AU - Kainuma, R.
AU - Ishida, K.
PY - 2008/10/1
Y1 - 2008/10/1
N2 - The phase equilibria and phase transformation of the body-centered cubic (bcc) phase in the Cu-Ti-Al system were investigated by the diffusion couple method, metallographic examination, differential scanning calorimetry, and x-ray diffraction. The isothermal sections at 700 and 900 °C and vertical sections at 18 at.% Al, 22 at.% Al, and 25 at.% Al in the Cu-rich portion were determined. These results indicate that (i) the Cu2TiAl compound with the L21 Heusler structure has a larger solubility range; (ii) the stable B2 + L21 miscibility gap of the ordered bcc phase exists until the liquid phase, and the tie lines of this miscibility gap are almost parallel with the Cu-Ti side; (iii) the composition and temperature for the eutectic reaction (L ↔ B2 + L21) are about 7 at.% Ti and about 970 °C, respectively, and (iv) the velocity of the eutectoid decomposition [bcc ↔ face-centered cubic (fcc) + D83] of the bcc phase with martensitic morphology in the Cu-Ti-Al alloys is slower than that of the Cu-Al alloys.
AB - The phase equilibria and phase transformation of the body-centered cubic (bcc) phase in the Cu-Ti-Al system were investigated by the diffusion couple method, metallographic examination, differential scanning calorimetry, and x-ray diffraction. The isothermal sections at 700 and 900 °C and vertical sections at 18 at.% Al, 22 at.% Al, and 25 at.% Al in the Cu-rich portion were determined. These results indicate that (i) the Cu2TiAl compound with the L21 Heusler structure has a larger solubility range; (ii) the stable B2 + L21 miscibility gap of the ordered bcc phase exists until the liquid phase, and the tie lines of this miscibility gap are almost parallel with the Cu-Ti side; (iii) the composition and temperature for the eutectic reaction (L ↔ B2 + L21) are about 7 at.% Ti and about 970 °C, respectively, and (iv) the velocity of the eutectoid decomposition [bcc ↔ face-centered cubic (fcc) + D83] of the bcc phase with martensitic morphology in the Cu-Ti-Al alloys is slower than that of the Cu-Al alloys.
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U2 - 10.1557/jmr.2008.0334
DO - 10.1557/jmr.2008.0334
M3 - Article
AN - SCOPUS:54449093291
SN - 0884-2914
VL - 23
SP - 2674
EP - 2684
JO - Journal of Materials Research
JF - Journal of Materials Research
IS - 10
ER -