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Reaction Synthesis of (Ti,Cr) 2AlC/Al2O3 In Situ Solid Solution Composite

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Abstract:

The (Ti,Cr)2AlC/Al2O3 solid solution composite has been synthesized by in situ aluminothermic reduction of the blend powders of Ti, Al, Cr2O3 and carbon black. The phase evolution during the formation of the composite was examined at the temperatures from 700 °C to 1400 °C. Based on the results of X-ray diffractometry (XRD) and differential scanning calorimeter (DSC), a possible reaction mechanism was brought forward to explain the formation of (Ti,Cr)2AlC/Al2O3 solid solution composite. Above the melting point of aluminum, liquid Al reacted with titanium to form the intermetallic compound of TiAl. As the temperature increased to 900 °C, the intermetallic compound of TiAl reacted with TiC to form Ti2AlC. The microstructures of the as prepared samples were also analyzed by the scanning electron microscope (SEM) together with the election dispersive spectroscopy (EDS).

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Periodical:

Key Engineering Materials (Volumes 480-481)

Pages:

519-522

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.480-481.519

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Online since:

June 2011

Authors:

Jian Feng Zhu, Na Han

Keywords:

(Ti,Cr)2AlC/Al2O3, Microstructure, Thermite Reaction, Thermodynamic

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© 2011 Trans Tech Publications Ltd. All Rights Reserved

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References

[1] M.W. Barsoum: Prog. Solid State Chem. Vol. 28 (2000), p, 201.

Google Scholar

[2] J.F. Zhu, J.Q. Gao and J.F. Yang et al.: Mater. Sci. Eng. A Vol. 49(2008), p, 62.

Google Scholar

[3] J.F. Zhu, G.Q. Qi and H.B. Yang et al.; Materials Science Forum Vol. 658(2010), p, 181.

Google Scholar

[4] W. Jeitschko, H. Nowotny and F. Benesovsky: Monatsh. Chem. Vol. 94 (1963), p, 672.

Google Scholar

[5] Z.M. Sun, R. Ahuja and J.M. Scheider: Solid State Commun. Vol. 129 (2004), p, 589.

Google Scholar

[6] B. Liu, F. Wang, J.F. Zhu, Y.L. Li, Z.B. Yang: Mater. Sci. Eng. Vol. 4 (2009), p, 636.

Google Scholar

[7] J.F. Zhu, G.Q. Qi, F. Wang and H.B. Yang: Adv. powder technol. Vol. 21 (2010), p, 578.

Google Scholar

[8] Z.M. Sun, R. Ahuja and J.M. Scheider: Phys. Rev. B. Vol. 68(2003), p, 224112.

Google Scholar

[9] J.X. Chen and Y.C. Zhou: Scripta Mater. Vol. 50 (2004), p, 897.

Google Scholar

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