Mullite (Nextel™ 720) fibre-reinforced mullite matrix composites exhibiting favourable thermomechanical properties

Abstract

A mullite matrix containing homogeneously distributed ultra-fine (70–350 nm) pores was reinforced with NdPO 4 -coated woven mullite fibre mats (Nextel™ 720) leading to damage-tolerant composites with good high temperature (1300 °C) strength and thermal cycling resistance. Electrophoretically deposited fibre preforms were placed in a high-load pressure filtration assembly, leading to formation of consolidated compacts with high green densities. After sintering at 1200 °C for 3 h, the compacts had a density of 86.4% of theoretical density and showed damage-tolerant behaviour up to 1300 °C, with flexural strength values of 235 MPa and 224 MPa at room temperature and 1300 °C, respectively. No significant microstructural damage was detected after thermal cycling the samples between room temperature and 1150 °C for up to 300 cycles. The thermomechanical test results combined with detailed electron microscopy observations indicate that the overall composite behaviour in terms of damage-tolerance, thermal capability and thermal cycling resistance is mainly controlled by two microstructural features: (1) the presence of a dense NdPO 4 interphase but weak bonding with the matrix or fibre and (2) the presence of homogeneously distributed nano pores (<350 nm) within the mullite matrix.