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Titanium self-propagating synthesis

Figure 5.8 Self-propagating synthesis of titanium nitride, carbide, or carbonitride via carbo-thermal reduction. Figure 5.8 Self-propagating synthesis of titanium nitride, carbide, or carbonitride via carbo-thermal reduction.
The synthesis of titanium nitride and titanium carbonitride by self-propagating combustion... [Pg.398]

Advani, A. H., Thadhani, N. N Grebe, H. A., Heaps, R., Coffin, C., and Kottke, T., Dynamic modeling of self propagating high temperature synthesis of titanium carbide ceramics. Scripta Metall. Mater., 25, 1447(1991). [Pg.209]

Agrafiotis, C. C Puszynski, J. A., and Hlavacek, V., Experimental study on the synthesis of titanium and tantalum nitrides in the self-propagating regime. Combust. Sci. Tech., 76, 187 (1991). [Pg.209]

Borovinskaya, I. P., and Loryan, V. E., Self-propagating high-temperature synthesis of titanium nitrides under high nitrogen pressures. Sov. Powd. MetalL, 11,851 (1978). [Pg.211]

Itin, V. I., Khachin, V. N., Gyunter, V. E., Bratchikov, A. D., and Chernov, D. B., Production of titanium nickelide by self-propagating high-temperature synthesis. Porosh. MetalL, 3,156 (1983). [Pg.215]

Subrahmanyam, J., Vijaykumar, M., and Ranganath, S., Thermochemistry of self propagating high temperature synthesis of titanium diboride composites. Metals Mater. Processes, 1, 105 (1989). [Pg.224]

Vecchio, K. S., LaSalvia, J. C., Meyers, M. A., and Gray, G. T., Microstructural characterization of self-propagating high-temperature synthesis Dynamically compacted and hot-pressed titanium carbides. Metall. Trans. A, 23A, 87 (1992). [Pg.225]

Zavitsanos, P. D., Gebhardt, J. J., and Gatti, A., The use of self-propagating high-temperature synthesis of high-density titanium diboride. In Combustion and Plasma Synthesis of High-Temperature Materials (Z. A. Munir and J. B. Holt, eds.). VCH Publishers, New York, 1990, p. 170. [Pg.226]

Self-propagating high-temperature synthesis of titanium borides. Bull. Mater. Sci., 16 (5), 347-356. [Pg.497]

Abstract. Pulse electric current sintering (PECS) is applied to synthesis MsSis type Si-Ti-Zr system intermetallic compounds, SisTixZr(5-x) x=0-5, directly from raw powders of silicon, titanium and zirconium. Almost full conversion to SisTixZr(5-x) are achieved by PECS method with self-propagating high temperature synthesis (SHS) reaction. The adiabatic temperatures are susceptible to sintering behaviors such as vacuum pressure in chamber and displacement of pressure axis on the PECS process. The large quantities of gases are released in Zr- rich samples. The bulk shapes with almost dense samples are obtained at Ti-rich samples. [Pg.81]

DD Radev, M Marinov. Properties of titanium and zirconium diborides obtained by self-propagated high-temperature synthesis. J Alloys Compos 244 48, 1996. [Pg.49]

SK Mishra, S Das, RP Goel, P Ramachandrarao. Self-propagating high temperature synthesis (SHS) of titanium carbide. J Mater Sci Lett 16 965, 1997. [Pg.50]

PD Zavitsanos, JJ Gebhardt, A Gatti. The use of self-propagating high-temperature synthesis of high-density titanium diboride. In Ref. 8, p 170. [Pg.50]

AH Advani, NN Thadhani, HA Grebe, R Heaps, C Coffin, T Kottke. Dynamic modelling of material and process parameter effects on self-propagating high-temperature synthesis of titanium carbide... [Pg.50]

See other pages where Titanium self-propagating synthesis is mentioned: [Pg.514]    [Pg.122]    [Pg.126]    [Pg.398]    [Pg.407]    [Pg.68]    [Pg.68]    [Pg.212]    [Pg.215]    [Pg.452]    [Pg.212]    [Pg.215]    [Pg.482]    [Pg.369]    [Pg.262]    [Pg.181]    [Pg.149]    [Pg.23]    [Pg.24]    [Pg.556]   
See also in sourсe #XX -- [ Pg.324 , Pg.356 ]



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