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Environmental Barrier Coating (EBC) Durability Modeling: An Overview and Preliminary Analysis
Author(s) -
Ali AbdulAziz,
Ramakrishna T. Bhatt,
Joseph E. Grady,
Donghui Zhu
Publication year - 2012
Publication title -
ceramic transactions /ceramic transactions
Language(s) - English
Resource type - Book series
SCImago Journal Rank - 0.137
H-Index - 20
eISSN - 2637-4390
pISSN - 1042-1122
DOI - 10.1002/9781118491867.ch32
Subject(s) - durability , materials science , coating , thermal barrier coating , composite material
A study outlining a fracture mechanics based model that is being developed to investigate crack growth and spallation of environmental barrier coating (EBC) under thermal cycling conditions is presented. A description of the current plan and a model to estimate thermal residual stresses in the coating and preliminary fracture mechanics concepts for studying crack growth in the coating are also discussed. A road map for modeling life and durability of the EBC and the results of FEA model(s) developed for predicting thermal residual stresses and the cracking behavior of the coating are generated and described. Further initial assessment and preliminary results showed that developing a comprehensive EBC life prediction model incorporating EBC cracking, degradation and spalling mechanism under stress and temperature gradients typically seen in turbine components is difficult. This is basically due to mismatch in thermal expansion difference between sub-layers of EBC as well as between EBC and substrate, diffusion of moisture and oxygen though the coating, and densification of the coating during operating conditions as well as due to foreign object damage, the EBC can also crack and spall from the substrate causing oxidation and recession and reducing the design life of the EBC coated substrate.

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