Nanocrystalline titanium carbonitride materials can be synthesised at pyrolysis temperatures of about 1100 °C via a polymer-to-ceramic transformation of a ...
Formation of nanocrystalline titanium carbonitride by pyrolysis of poly(titanylcarbodiimide). O. Lichtenbergera, E. Pippela, J. Woltersdorfa,∗. , R. Riedelb.
Pyrolysis at 800 deg. C leads to a mixture of amorphous carbon and titanium nitride as crystalline particles of about 4 nm in size. Pyrolysis at 1100 deg. C ...
Pyrolysis at 800°C was shown to form a mixture of amorphous carbon and titanium nitride as crystalline particles of about 4 nm in size while pyrolysis at 1100°C ...
Pyrolysis at 800 °C leads to a mixture of amorphous carbon and titanium nitride as crystalline particles of about 4 nm in size. Pyrolysis at 1100 °C yields ...
Formation of nanocrystalline titanium carbonitride by pyrolysis of poly(titanylcarbodiimide). Lichtenberger, O. ; Pippel, E. ; Woltersdorf, J. ; Riedel, Ralf ...
Formation of nanocrystalline titanium carbonitride by pyrolysis of poly(titanylcarbodiimide) · Lichtenberger. ,. Pippel. ,. Woltersdorf. et al. 2003.
May 24, 2005 · Riedel, “Formation of Nanocrystalline Titanium Carbobitride by Pyrolysis of Poly(titanylcarbodiimide),”Mater. Chem. Phys., 81, 195–201 (2003) ...
Formation of Nanocrystalline Titanium Carbonitride by Pyrolysis of Poly(Titanylcarbodiimide). Citing Article. July 2003. Materials Chemistry and Physics. O ...
... Formation of nanocrystalline titanium carbonitride by pyrolysis of poly(titanylcarbodiimide). Lichtenberger O., Pippel E., Woltersdorf J., Riedel R. Q1.