The effect of rising resistance curves on the fracture toughness determined from chevron-notched beam tests is estimated via a set of simple numerical calculations. It is shown that for materials with rising resistance curve,t he toughnesses determined by thepeak load method and by the work of fracture method are both higher than the initiation toughenss, and both depend on the sample size relative to the length over which the resistance curve increases. It is also found that the toughness based on the work of fracture is higher than that based ont he peak load. Fracture toughness data obtained from tests of a nickel-alumina composite are discussed in light of the results of the numerical calculations.
Origin
Cornell University, New York, Usa
Journal Title
J Am Ceram Soc 80 5 1997 1319-1322
Sector
Glass Ceramics
Class
GC 274