Fabrication and properties of Si-Hf alloy melt-infiltrated Tyranno ZMI fiber/Sic-based matrix composites

The fabrication of Tyranno ZMI fiber/SiC-based matrix composites by a melt infiltration (MI) process using Si-8.5 at%Hf alloy was investigated. The Si-Hf alloy was utilized instead of pure Si for MI processing in order to lower the MI temperature to below 1400 degrees C as well as to inhibit the thermal degradation of amorphous SiC fibers. Microstructural characterization revealed that the composite fabricated by Si-8.5 at%Hf alloy MI at 1375 degrees C had a highly dense matrix comprising reaction-formed SiC and unreacted Si-HfSi2 phases. The S-Hf alloy melt-infiltrated composite exhibited approximately 35% higher bending strength than a conventional Si melt-infiltrated composite fabricated at 1450 degrees C. Further, it was confirmed that Si-Hf alloy melt-infiltrated composite maintained its strength up to 1200 degrees C in an Ar atmosphere. These results clearly demonstrated that the Si-8.5 at%Hf alloy offers sufficient infiltration ability and reactivity to form a dense SiC-based matrix at 1375 degrees C. (C) 2014 Elsevier Ltd. All rights reserved.