Modelování bifurkace trhliny v laminárních keramikách s velkými residuálními napětími

Modelling of Crack Bifurcation in Laminar Ceramics with Large Compressive Stress

journal article in Web of Science

en

. Ceramic laminates designed with strong interfaces have shown crack growth resistance (R-curve) behaviour through microstructural design (e.g. grain size, layer composition) and/or due to the presence of compressive residual stresses, acting as a barrier to crack propagation. The goal of the contribution is to model the mechanism of crack bifurcation in laminar ceramics with large compressive stress which still have not been satisfactory explained.

. Ceramic laminates designed with strong interfaces have shown crack growth resistance (R-curve) behaviour through microstructural design (e.g. grain size, layer composition) and/or due to the presence of compressive residual stresses, acting as a barrier to crack propagation. The goal of the contribution is to model the mechanism of crack bifurcation in laminar ceramics with large compressive stress which still have not been satisfactory explained.

. Ceramic laminates designed with strong interfaces have shown crack growth resistance (R-curve) behaviour through microstructural design (e.g. grain size, layer composition) and/or due to the presence of compressive residual stresses, acting as a barrier to crack propagation. The goal of the contribution is to model the mechanism of crack bifurcation in laminar ceramics with large compressive stress which still have not been satisfactory explained.

Laminar Ceramics, Compressive Stress, Crack Bifurcation, Finite Fracture Mechanics

Laminar Ceramics, Compressive Stress, Crack Bifurcation, Finite Fracture Mechanics

2011

02.01.2012

Trans Tech Publication

1013-9826

488-489

2012

130–133

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