Title of article
Cracks in functionally graded materials
Author/Authors
Bahr، نويسنده , , H.-A and Balke، نويسنده , , H and Fett، نويسنده , , T and Hofinger، نويسنده , , I and Kirchhoff، نويسنده , , G and Munz، نويسنده , , D and Neubrand، نويسنده , , A and Semenov، نويسنده , , A.S and Weiss، نويسنده , , H.-J and Yang، نويسنده , , Y.Y، نويسنده ,
Pages
15
From page
2
To page
16
Abstract
The weight function method is described to analyze the crack growth behavior in functionally graded materials and in particular materials with a rising crack growth resistance curve. Further, failure of graded thermal barrier coatings (TBCs) under cyclic surface heating by laser irradiation is modeled on the basis of fracture mechanics. The damage of both graded and non-graded TBCs is found to develop in several distinct stages: vertical cracking→delamination→blistering→spalling. This sequence can be understood as an effect of progressive shrinkage due to sintering and high-temperature creep during thermal cycling, which increases the energy-release rate for vertical cracks which subsequently turn into delamination cracks. The results of finite element modeling, taking into account the TBC damage mechanisms, are compatible with experimental data. An increase of interface fracture toughness due to grading and a decrease due to ageing have been measured in a four-point bending test modified by a stiffening layer. Correlation with the damage observed in cyclic heating is discussed. It is explained in which way grading is able to reduce the damage.
Keywords
FGM , R-curve , Residual stresses , TBC , Fracture mechanics
Journal title
Astroparticle Physics
Record number
2062738
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