Mechanical Properties of Anode Layer of Solid Oxide Fuel Cell after Reduction

Xiang Zhao; Feng Hui Wang

doi:10.4028/www.scientific.net/AMR.699.409

Paper Titles

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A Taste and Odor Sensing by Photoluminescence Responses of Luminescent Metal Organic Frameworks
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Conductivity of Composite Material Based on System NdPo₄•nH₂O- CsH₂PO₄
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Effect of Spinrate on the Structural, Optical and Surface Properties of the Sol-Gel Spin Coated Zinc Oxide Thin Films
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Mechanical Properties of Anode Layer of Solid Oxide Fuel Cell after Reduction
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Stability Analysis of a Thin Pseudoplastic Fluid with Condensation Effects Flowing on a Rotating Circular Disk
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The Effect of Ternary Material (Zr, Y, and O) High-k Gate Dielectrics
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LCF Life Prediction Model of Coiled Tubing Based on Fatigue Damage Accumulation
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Investigation into the Influence of Coating Speed on Ink Penetration
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 699Mechanical Properties of Anode Layer of Solid...

Mechanical Properties of Anode Layer of Solid Oxide Fuel Cell after Reduction

Abstract:

The mechanical properties, such as hardness and elastic modulus, are determined by a work of indentation. The work of indentation method works well even though pile up is observed because of the use of the energy dissipated or work done during the indentation. In this work, nanoindentation tests are carried out for the anode layer of half-cell structure of solid oxide fuel cells(SOFCs), the typical mechanical properties are derived by the work of indentation.