论文信息 - Flaw growth in a polycrystalline lithium-aluminium-silicate glass ceramic - 字舞流文

Flaw growth in a polycrystalline lithium-aluminium-silicate glass ceramic

B. Majumdar | M. Mendiratta | T. Mah

[1] B. Majumdar,et al. Crack tip shielding--an elastic theory of dislocations and dislocation arrays near a sharp crack , 1981 .

[2] B. Lawn,et al. Residual stress effects in sharp contact cracking , 1979 .

[3] Brian R. Lawn,et al. Residual stress effects in sharp contact cracking , 1979 .

[4] P. Beardmore,et al. Fracture phenomenology of a lithium-aluminium-silicate glass-ceramic , 1978 .

[5] J. Petrovic,et al. Slow Crack Growth from Controlled Surface Flaws in Hot-Pressed Si3N4 , 1978 .

[6] A. Evans,et al. A model for crack initiation in elastic/plastic indentation fields , 1977 .

[7] E. A. Charles,et al. Strength recovery by diffusive crack healing , 1977 .

[8] D. Niesz,et al. Strength-Size Relationships in Ceramic Materials: 1. Investigation of a Commercial Alumina. 2. Effect of Flaw Shape on Strength of Ceramics. , 1975 .

[9] J. J. Petrovic,et al. Controlled Surface Flaws in Hot‐Pressed SiC , 1975 .

[10] F. Lange. High‐Temperature Strength Behavior of Hot‐Pressed Si3N4: Evidence for Subcritical Crack Growth , 1974 .

[11] A. G. Evans,et al. Crack propagation and failure prediction in silicon nitride at elevated temperatures , 1974 .

[12] R. Swalin,et al. Thermodynamics of solids , 1962 .

[13] W. D. Kingery,et al. Introduction to Ceramics , 1976 .

[14] Michael V. Swain,et al. Microfracture beneath point indentations in brittle solids , 1975 .