Fiberglass chopped strand is not suitable for reinforcing ceramic matrix composites. These composites need materials that can withstand high temperatures and offer exceptional mechanical properties in elevated temperatures. However, fiberglass may lack the required thermal stability to endure the extreme temperatures necessary for ceramic matrix composites. Moreover, the thermal expansion coefficients of fiberglass and ceramics often differ significantly, resulting in poor compatibility and potential composite failure. Consequently, alternative fibers such as carbon fibers or silicon carbide fibers, which are known for their high-temperature resistance, are commonly employed for reinforcing ceramic matrix composites.
No, fiberglass chopped strand cannot be used for reinforcing ceramic matrix composites. Ceramic matrix composites usually require high-temperature resistant materials for reinforcement, as they are designed to withstand extreme heat and provide excellent mechanical properties at elevated temperatures. Fiberglass, on the other hand, may not have the necessary thermal stability to withstand the high temperatures required for ceramic matrix composites. Additionally, the thermal expansion coefficients of fiberglass and ceramics are usually significantly different, which can lead to poor compatibility and potential failure of the composite. Therefore, alternative high-temperature resistant fibers, such as carbon fibers or silicon carbide fibers, are typically used for reinforcing ceramic matrix composites.
Yes, fiberglass chopped strand can be used for reinforcing ceramic matrix composites. It provides strength and improved mechanical properties to the composite material.