Simulation of Hydrogen Diffusion and Initiation of Hydrogen-Induced Cracking in PZT Ferroelectric Ceramics Using a Phase Field Model

Simulation of Hydrogen Diffusion and Initiation of Hydrogen-Induced Cracking in PZT Ferroelectric Ceramics Using a Phase Field Model

A phase field model was developed to simulate hydrogen diffusion and hydrogen‐induced cracking of lead zirconate ferroelectric ceramics (PZT‐5). In this model, the evolution of hydrogen concentration around a crack in PZT was coupled with stress field analysis by solving both time‐dependent diffusio...

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Veröffentlicht in:Journal of the American Ceramic Society 2007-09, Vol.90 (9), p.2868-2872
Hauptverfasser: Guo, Xiang-Hua, Shi, San-Qiung, Qiao, Li-Jie
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Building materials. Ceramics. Glasses
Ceramic industries
Ceramics
Chemical industry and chemicals
Computer simulation
Crack initiation
Diffusion
Electrotechnical and electronic ceramics
Exact sciences and technology
Fracture mechanics
Hydrogen
Lead zirconate titanates
Materials science
Mathematical analysis
Mathematical models
Technical ceramics
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Zusammenfassung:A phase field model was developed to simulate hydrogen diffusion and hydrogen‐induced cracking of lead zirconate ferroelectric ceramics (PZT‐5). In this model, the evolution of hydrogen concentration around a crack in PZT was coupled with stress field analysis by solving both time‐dependent diffusion equation and time‐dependent Ginzburg–Landau strain field equation. Combined with a fracture criterion, we simulated hydrogen diffusion and crack initiation in PZT ceramics caused by hydrogen ingress from the environment. Numerical results showed that, as the concentration of hydrogen increased, the fracture toughness of PZT ceramics decreased significantly by one or two orders of magnitudes. Therefore, the hydrogen diffusion had a significant influence on PZT ceramics in practical application.
ISSN:0002-7820
1551-2916
DOI:10.1111/j.1551-2916.2007.01821.x