Add to ORKGThe materials currently used in aerospace and aviation, such as C/C and C/SiC composites, possess excellent mechanical properties but are limited to a maximum operational temperature of 1600°C (C/SiC) and poorly oxidizing environments (C/C). For more demanding applications, new materials able to withstand extreme temperatures without recession are required. In the framework of the C3harme project, a new class of materials labelled UHTCMCs, consisting of a UHTC matrix reinforced with carbon fibers, has been developed and characterized in order to overcome these challenges. Different fiber reinforcements and sintering parameters have been investigated from the microstructural point of view. The composites were fabricated via slurry infiltrati...
Composites are, in general, a rapidly evolving and growing technical field with a very wide range of...
In Korea, a research project named “Development of ultra-abrasion resistant Hf- and Ta- based cerami...
Short fibre reinforced ceramic composites, based on ZrB2 with a carbon fibre content of 45 vol%, wer...
A process technology for the processing of the continuous carbon fibre reinforced ZrB2 (Cf – ZrB2) u...
In this paper, for the first time, we report the manufacturing and characterization of large UHTCMCs...
Ultra-High Temperature Ceramic Matrix Composites (UHTCMCs) are the next generation composites develo...
In this paper, for the first time, we report the manufacturing and characterization of large UHTCMCs...
Approaches to controlling the microstructure of Ultra High Temperature Ceramics (UHTCs) are describe...
The sintering behavior and mechanical properties of carbon fibre reinforced ZrB2/SiC/WC composites w...
A series of high-density ceramic composites with carbon fibre content between 40 and 65% and ultra-r...
The project will involve the process development and characterisation of an ultra-high temperature c...
In space propulsion applications, the development of new ceramic matrix composites with improved res...
Aerospace provides a strong driving force for technological development. Recently a novel class of c...
In space propulsion applications, the development of new ceramic matrix composites with improved res...
For the first time we show that spark plasma sintering can efficiently replace hot pressing for the ...
Composites are, in general, a rapidly evolving and growing technical field with a very wide range of...
In Korea, a research project named “Development of ultra-abrasion resistant Hf- and Ta- based cerami...
Short fibre reinforced ceramic composites, based on ZrB2 with a carbon fibre content of 45 vol%, wer...
A process technology for the processing of the continuous carbon fibre reinforced ZrB2 (Cf – ZrB2) u...
In this paper, for the first time, we report the manufacturing and characterization of large UHTCMCs...
Ultra-High Temperature Ceramic Matrix Composites (UHTCMCs) are the next generation composites develo...
In this paper, for the first time, we report the manufacturing and characterization of large UHTCMCs...
Approaches to controlling the microstructure of Ultra High Temperature Ceramics (UHTCs) are describe...
The sintering behavior and mechanical properties of carbon fibre reinforced ZrB2/SiC/WC composites w...
A series of high-density ceramic composites with carbon fibre content between 40 and 65% and ultra-r...
The project will involve the process development and characterisation of an ultra-high temperature c...
In space propulsion applications, the development of new ceramic matrix composites with improved res...
Aerospace provides a strong driving force for technological development. Recently a novel class of c...
In space propulsion applications, the development of new ceramic matrix composites with improved res...
For the first time we show that spark plasma sintering can efficiently replace hot pressing for the ...
Composites are, in general, a rapidly evolving and growing technical field with a very wide range of...
In Korea, a research project named “Development of ultra-abrasion resistant Hf- and Ta- based cerami...
Short fibre reinforced ceramic composites, based on ZrB2 with a carbon fibre content of 45 vol%, wer...