Evaluation of Fracture Toughness Distribution and Estimation of Residual Stress in Ceramic-Metal Functionally Graded Materials
Keiichiro Tohgo, Mitsuhisa Iizuka, Hiroyasu Araki and Yoshinobu Shimamura
Abstract:This paper deals with evaluation of fracture toughness in functionally graded materials (FGMs) consisting of partially stabilized zirconia (PSZ) and austenitic stainless steel SUS 304. FGMs and non-graded composites (non-FGMs) with fine and coarse microstructures are fabricated by powder metallurgy using PSZ and two kinds of SUS 304 powders. The fracture toughness is determined by conventional tests for several non-FGMs with each material composition and by a method utilizing stable crack growth in FGMs. The obtained results on the fracture toughness are as follows: (1) The fracture toughness increases with an increase in a content of SUS 304 on both FGMs and non-FGMs. (2) On the fracture toughness of the non-FGMs, the influence of microstructure is negligible. (3) On the FGMs, the fracture toughness is higher in the FGM with fine microstructure than in the FGM with coarse microstructure. (4) The fracture toughness of the FGMs is higher than that of the non-FGMs especially in the case of fine microstructure. Finally, the residual stress in the FGMs created in the fabrication process is estimated from the difference in fracture toughness between the FGMs and non-FGMs. Key Words:Functionally graded materials, Fracture toughness, Stable crack growth, Non-graded composites, Microstructure, Residual stress