论文信息 - Mechanics of Transformation‐Toughening in Brittle Materials

Mechanics of Transformation‐Toughening in Brittle Materials

Particles which undergo a stress-induced martensitic transformation are known to toughen certain brittle materials. The enhanced toughness can be considered to originate from the residual strain fields which develop following transformation and tend to limit the crack opening. The increased toughness can estimated from the crack-tip stress-intensity change induced by the transformation of a volume of material near the crack tip. It is found that the initial zone, prior to crackgrowth, provides no change in stress intensity. As the crack grows, the zone (associated with a positive transformation strain) induces a stress-intensity reduction that rises to a maximum level after some crack propagation. The influence of particle-size distribution on the stress-intensity reduction is also discussed.

Anthony G. Evans | Robert M. McMeeking | A. Evans | R. McMeeking

[1] T. Gupta,et al. Effect of stress-induced phase transformation on the properties of polycrystalline zirconia containing metastable tetragonal phase , 1978 .

[2] Anthony G. Evans,et al. REVIEW—Transformation Toughening in Ceramics: Martensitic Transformations in Crack‐Tip Stress Fields , 1980 .

[3] J. D. Eshelby. The determination of the elastic field of an ellipsoidal inclusion, and related problems , 1957, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[4] A. Evans,et al. Transformation-toughening in partially-stabilized zirconia (PSZ) , 1979 .

[5] A. Evans,et al. Martensitic transformations in zirconia—particle size effects and toughening , 1981 .

[6] N. Claussen. Fracture Toughness of Al2O3 with an Unstabilized ZrO2Dispersed Phase , 1976 .

[7] R. Hannink,et al. Growth morphology of the tetragonal phase in partially stabilized zirconia , 1978 .

[8] J. Rice,et al. Some remarks on elastic crack-tip stress fields , 1972 .

[9] A. Heuer,et al. Mechanisms of Toughening Partially Stabilized Zirconia (PSZ) , 1977 .