Add to ORKGCeramic matrix composites containing TiB2 as a particulate phase have been produced by hot pressing and hut isostatic pressing. The problems of the reactivity of TiB2 with the Si3N4 matrix and with the sintering environment have been successfully addressed. A novel dual atmosphere sintering profile combined with low temperature hot pressing has been used to successfully produce fully dense materials. The effect of TiB2 addition on mechanical properties has been investigated and the tribological behaviour of optimised compositions has been examined using a ball-on-disc apparatus. Wear coefficients and friction coefficients for Si3N4-Ti-2 composites have been measured and compared to monolithic Si3N4 materials. Composites containing TiB2 show...
The effect of hot-pressing temperature on the densification behavior and mechanical properties of ti...
The microstructural and mechanical properties of Si3N4-based composites with different amounts of Ti...
Original article can be found at: http://www.sciencedirect.com/ Copyright Elsevier [Full text of thi...
Ceramic matrix composites containing TiB2 as a particulate phase have been produced by hot pressing ...
Ceramic matrix composites TiB2 as a particulate phase have been produced by not pressing. The proble...
Ceramic matrix composites containing TiB2 as a particulate phase have been produced by hot pressing....
The addition of titanium diboride particulates to a sialon matrix offers the possibility of ultrahar...
The addition of titanium diboride particulates to a sialon matrix offers the possibility of ultrahar...
TiB2 based self-lubricating ceramic composites with the addition of different content of h-BN were p...
Titanium nitride and titanium diboride are materials with high melting points, hardness and low dens...
The inclusion of TiB2 particles in a Si3N4 or sialon matrix has the potential to improve the materi...
The main objective of this paper is to help on the clarification of the lack of consensus in the bib...
The effect of TiB2 content on mechanical properties of silicon carbide-titanium diboride ceramic com...
ZrB2-TiB2-based ceramics with varying amount of TiB2 (up to 30 wt%) were hot pressed at 2200 degrees...
In the present article, mechanical and wear behaviour of hot-pressed 304 stainless steel matrix comp...
The effect of hot-pressing temperature on the densification behavior and mechanical properties of ti...
The microstructural and mechanical properties of Si3N4-based composites with different amounts of Ti...
Original article can be found at: http://www.sciencedirect.com/ Copyright Elsevier [Full text of thi...
Ceramic matrix composites containing TiB2 as a particulate phase have been produced by hot pressing ...
Ceramic matrix composites TiB2 as a particulate phase have been produced by not pressing. The proble...
Ceramic matrix composites containing TiB2 as a particulate phase have been produced by hot pressing....
The addition of titanium diboride particulates to a sialon matrix offers the possibility of ultrahar...
The addition of titanium diboride particulates to a sialon matrix offers the possibility of ultrahar...
TiB2 based self-lubricating ceramic composites with the addition of different content of h-BN were p...
Titanium nitride and titanium diboride are materials with high melting points, hardness and low dens...
The inclusion of TiB2 particles in a Si3N4 or sialon matrix has the potential to improve the materi...
The main objective of this paper is to help on the clarification of the lack of consensus in the bib...
The effect of TiB2 content on mechanical properties of silicon carbide-titanium diboride ceramic com...
ZrB2-TiB2-based ceramics with varying amount of TiB2 (up to 30 wt%) were hot pressed at 2200 degrees...
In the present article, mechanical and wear behaviour of hot-pressed 304 stainless steel matrix comp...
The effect of hot-pressing temperature on the densification behavior and mechanical properties of ti...
The microstructural and mechanical properties of Si3N4-based composites with different amounts of Ti...
Original article can be found at: http://www.sciencedirect.com/ Copyright Elsevier [Full text of thi...