armi.materials.ht9 module¶
Simple/academic/incomplete HT9 ferritic-martensitic stainless steel material.
This is a famous SFR cladding/duct material because it doesn’t void swell that much.
- class armi.materials.ht9.HT9[source]¶
Bases:
armi.materials.material.Material
Simplified HT9 stainless steel.
Warning
This is an academic-quality material. When more detail is desired, a custom material should be implemented via a user-provided plugin.
- MFH(1,2,3)
Metallic Fuels Handbook Hofman, G. L., Billone, M. C., Koenig, J. F., Kramer, J. M., Lambert, J. D. B., Leibowitz, L., Orechwa, Y., Pedersen, D. R., Porter, D. L., Tsai, H., and Wright, A. E. Metallic Fuels Handbook. United States: N. p., 2019. Web. doi:10.2172/1506477. https://www.osti.gov/biblio/1506477-metallic-fuels-handbook
- name = 'HT9'¶
String identifying the material
- propertyValidTemperature = {'linear expansion': ((293, 1050), 'K')}¶
Dictionary of valid temperatures over which the property models are valid in the format ‘Property Name’: ((Temperature_Lower_Limit, Temperature_Upper_Limit), Temperature_Units)
- setDefaultMassFracs()[source]¶
HT9 mass fractions
From E.2-1 of [MFH]. https://www.osti.gov/biblio/1506477-metallic-fuels-handbook
- linearExpansionPercent(Tk=None, Tc=None)[source]¶
Gets the linear expansion from E.2.2.2 in [MFH] for HT9.
The ref gives dL/L0 in percent and is valid from 293 - 1050 K.
- thermalConductivity(Tk=None, Tc=None)[source]¶
Thermal conductivity in W/m-K)
From [MFH], E.2.2.3, eq 5.
Tip
This can probably be sped up with a polynomial evaluator.
- paramCollectionType¶
alias of
armi.reactor.parameters.parameterCollections.MaterialParameterCollection