Engineering FEA Sintering Model Development for Metal Supported SOFC

Chatzimichail, Rallou and Dawson, Richard James and Green, Sarah Margaret and Sullivan, Daniel and Mukerjee, Subhasish and Selby, Mark (2017) Engineering FEA Sintering Model Development for Metal Supported SOFC. ECS Transactions, 78 (1). pp. 2773-2783. ISSN 1938-6737

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In a collaboration between Ceres Power and Lancaster University, funded by Innovate UK, an engineering FEA model is being developed to further understand the manufacturing processes, such as the densification of the ceria based electrolyte. In these models material properties, such as the Thermal Expansion Coefficient, Young’s Modulus, layer densification rates and creep are critical inputs. These properties, when interacting with the applied thermal processes, give rise to stresses within the layers which can result in permanent deformation and residual stresses at the end of the process steps at room temperature. A deep analytical understanding of these material-process interactions can be used to optimise sintering time, energy usage, residual part stresses or distortion in a rapid and low cost way through the use of validated CAE models. Results will be presented from the modelling techniques for an example metal supported SOFC to demonstrate the importance of the above mentioned properties. Sensitivity study results will also be presented to show the impact of variability of the manufacturing process.

Item Type:
Journal Article
Journal or Publication Title:
ECS Transactions
Additional Information:
© 2017 ECS - The Electrochemical Society
Uncontrolled Keywords:
?? engineering(all) ??
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Deposited On:
14 Aug 2017 09:28
Last Modified:
15 Apr 2024 00:02