The microstructure and elevated temperature mechanical properties of continuous carbon fibre reinforced ZrC and TaC composites were investigated. Silicon carbide was added to both compositions to aid sintering during hot pressing. Fibres were homogeneously distributed and no fibre degradation was observed at the interface with the ceramic matrix even after testing at 2100 °C. The flexural strength increased from 260 to 300 MPa at room temperature to ~450 MPa at 1500 °C, which was attributed to stress relaxation. At 1800 °C, the strength decreased to ~410 MPa for both samples. At 2100 °C plastic deformation resulted in lower strength at the proportional limit (210-320 MPa), but relatively high ultimate strength (370-440 MPa). The sample containing ZrC had a lower ultimate strength, but higher failure strain at 2100 °C due to the weak fibre/matrix interface that resulted in fibre-dominated composite behaviour.
Mechanical behaviour of carbon fibre reinforced TaC/SiC and ZrC/SiC composites up to 2100°C
Vinci A;Zoli L;Sciti D;
2019
Abstract
The microstructure and elevated temperature mechanical properties of continuous carbon fibre reinforced ZrC and TaC composites were investigated. Silicon carbide was added to both compositions to aid sintering during hot pressing. Fibres were homogeneously distributed and no fibre degradation was observed at the interface with the ceramic matrix even after testing at 2100 °C. The flexural strength increased from 260 to 300 MPa at room temperature to ~450 MPa at 1500 °C, which was attributed to stress relaxation. At 1800 °C, the strength decreased to ~410 MPa for both samples. At 2100 °C plastic deformation resulted in lower strength at the proportional limit (210-320 MPa), but relatively high ultimate strength (370-440 MPa). The sample containing ZrC had a lower ultimate strength, but higher failure strain at 2100 °C due to the weak fibre/matrix interface that resulted in fibre-dominated composite behaviour.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
