(→Zdenek Bazant, Ph.D.) |
(→April 7, 2011) |
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=Zdenek Bazant, Ph.D.= | =Zdenek Bazant, Ph.D.= | ||
− | =April 7, 2011= | + | ===April 7, 2011=== |
Probabilistic Nano-Mechanical Theory of Quasibrittle | Probabilistic Nano-Mechanical Theory of Quasibrittle | ||
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Bažant, Z.P. (2004). “Scaling theory for quasibrittle structural failure.” Proc., Nat. Acad. of Sciences 101 (37), 14000—14007. | Bažant, Z.P. (2004). “Scaling theory for quasibrittle structural failure.” Proc., Nat. Acad. of Sciences 101 (37), 14000—14007. | ||
Bažant, Z.P., and Pang, S.-D. (2006). “Mechanics based statistics of failure risk of quasibrittle structures and size effect on safety factors.” Proc. of the National Academy of Sciences 103(25), 9434-9439. | Bažant, Z.P., and Pang, S.-D. (2006). “Mechanics based statistics of failure risk of quasibrittle structures and size effect on safety factors.” Proc. of the National Academy of Sciences 103(25), 9434-9439. | ||
− | + | Bažant, Z.P., Le, J.-L., and Bazant, M.Z. (2008). “Scaling of strength and lifetime distributions based on atomistic fracture mechanics.” Proc. of the Nat. Academy of Sciences, 106 (28), 11484-11489. | |
Pang, S.-D., Bažant, Z.P., and Le, J.-L. (2009). Statistics of strength of ceramics: finite weakest-link model and necessity of zero threshold.” Int. J. of Fracture 154, 131-145. | Pang, S.-D., Bažant, Z.P., and Le, J.-L. (2009). Statistics of strength of ceramics: finite weakest-link model and necessity of zero threshold.” Int. J. of Fracture 154, 131-145. | ||
Le, J.-L., and Bažant, Z.P. (2009). “Strength Distribution of Dental Restorative Ceramics: Finite Weakest-Link Model with Zero Threshold.” Journal of Dental Materials, 25, 641--648. | Le, J.-L., and Bažant, Z.P. (2009). “Strength Distribution of Dental Restorative Ceramics: Finite Weakest-Link Model with Zero Threshold.” Journal of Dental Materials, 25, 641--648. |