STRENGTH BEHAVIOR OF POLYCRYSTALLINE ALUMINA SUBJECTED TO THERMAL SHOCK

[1] FRACTURE BEHAVIOR OF THERMALLY SHOCKED ALUMINUM OXIDE [J]. JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 1969, 52 (11) : 628 - +

[2] Boley B. A., 1960, THEORY THERMAL STRES

[3] CARSLAW HS, 1959, CONDUCTION HEAT SOLI, P238

[4] CLARKE FJP, 1966, P BRIT CERAMIC SOC, V6, P163

[5] EFFECT OF POROSITY ON THERMAL STRESS FRACTURE [J]. JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 1955, 38 (01) : 33 - 37

[6] CONGLETON J, 1965, INT J FRACTURE MECH, V1, P15

[7] THERMAL SHOCK ANALYSIS OF SPHERICAL SHAPES [J]. JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 1955, 38 (01) : 44 - 54

[8] FRACTURE BEHAVIOR OF A MODEL BRITTLE SOLID CONTAINING ARTIFICIAL SURFACE FLAWS [J]. JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 1965, 48 (05) : 274 - &

[9] The Effective Surface Energy of Brittle Materials [J]. JOURNAL OF MATERIALS SCIENCE, 1968, 3 (02) : 165 - 173

[10] DAVIDGE RW, 1967, BRIT CERAM T, V66, P405

[1] FRACTURE BEHAVIOR OF THERMALLY SHOCKED ALUMINUM OXIDE [J]. JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 1969, 52 (11) : 628 - +

[2] Boley B. A., 1960, THEORY THERMAL STRES

[3] CARSLAW HS, 1959, CONDUCTION HEAT SOLI, P238

[4] CLARKE FJP, 1966, P BRIT CERAMIC SOC, V6, P163

[5] EFFECT OF POROSITY ON THERMAL STRESS FRACTURE [J]. JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 1955, 38 (01) : 33 - 37

[6] CONGLETON J, 1965, INT J FRACTURE MECH, V1, P15

[7] THERMAL SHOCK ANALYSIS OF SPHERICAL SHAPES [J]. JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 1955, 38 (01) : 44 - 54

[8] FRACTURE BEHAVIOR OF A MODEL BRITTLE SOLID CONTAINING ARTIFICIAL SURFACE FLAWS [J]. JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 1965, 48 (05) : 274 - &

[9] The Effective Surface Energy of Brittle Materials [J]. JOURNAL OF MATERIALS SCIENCE, 1968, 3 (02) : 165 - 173

[10] DAVIDGE RW, 1967, BRIT CERAM T, V66, P405