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Processing and mechanical properties of porous Fe-26Cr-1Mo for solid oxide fuel cell interconnects
J. A. Scott,
D. C. Dunand
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Corresponding author for this work
Materials Science and Engineering
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peer-review
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Scopus citations
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Keyphrases
Mechanical Properties
100%
Sodium Chloride
100%
Processing Properties
100%
Solid Oxide Fuel Cell Interconnects
100%
Ambient Temperature
50%
Stiffness
50%
Variational
50%
Bulk Material
50%
Cr-Mo
50%
Ferritic Steel
50%
Scaling Laws
50%
Metal Powder
50%
Fe-Cr
50%
Compressive Creep Behavior
50%
Power Law
50%
Deformation Mechanism
50%
Strut
50%
Compressive Properties
50%
Unit Cell Model
50%
Argon
50%
Composite Model
50%
Creep Response
50%
Stress Dependence
50%
Argon Atmosphere
50%
Creep Data
50%
Open Porosity
50%
Mechanical Energy Absorption
50%
Gibson-Ashby
50%
Material Science
Creep
100%
Oxide Compound
100%
Sintering
100%
Ferritic Steel
50%
Deformation Mechanism
50%