armi.materials.hastelloyN module

Hastelloy-N is a high-nickel structural material invented by ORNL for handling molten fluoride salts.

class armi.materials.hastelloyN.HastelloyN[source]

Bases: armi.materials.material.Material

Hastelloy N alloy (UNS N10003)

Haynes(1,2,3)

Haynes International, H-2052D 2020 (http://haynesintl.com/docs/default-source/pdfs/new-alloy-brochures/corrosion-resistant-alloys/brochures/n-brochure.pdf)

SAB

Sabharwall, et. al. Feasibility Study of Secondary Heat Exchanger Concepts for the Advanced High Temperature Reactor INL/EXT-11-23076, 2011

name = 'HastelloyN'
type = 'Structural'
materialIntro = 'Hastelloy N alloy is a nickel-base alloy that was invented at Oak RIdge National Laboratories as a container material for molten fluoride salts. It has good oxidation resistance to hot fluoride salts in the temperature range of 704 to 871C (1300 to 1600F)'
propertyValidTemperature = {'heat capacity': ((373.15, 973.15), 'K'), 'thermal conductivity': ((473.15, 973.15), 'K'), 'thermal expansion': ((293.15, 1173.15), 'K')}
setDefaultMassFracs()[source]

Hastelloy N mass fractions

From [Haynes].

thermalConductivity(Tk=None, Tc=None)[source]

Calculates the thermal conductivity of Hastelloy N. Second order polynomial fit to data from [Haynes].

Parameters
  • Tk (float) – Temperature in (K)

  • Tc (float) – Temperature in (C)

Return type

Hastelloy N thermal conductivity (W/m-K)

heatCapacity(Tk=None, Tc=None)[source]

Calculates the specific heat capacity of Hastelloy N. Sixth order polynomial fit to data from Table 2-20 [SAB] (R^2=0.97).

Parameters
  • Tk (float) – Temperature in (K)

  • Tc (float) – Temperature in (C)

Return type

Hastelloy N specific heat capacity (J/kg-C)

linearExpansionPercent(Tk=None, Tc=None)[source]

average thermal expansion dL/L. Used for computing hot dimensions

Parameters
  • Tk (float) – temperature in (K)

  • Tc (float) – Temperature in (C)

Return type

%dLL(T) in m/m/K

meanCoefficientThermalExpansion(Tk=None, Tc=None)[source]

Mean coefficient of thermal expansion for Hastelloy N. Second order polynomial fit of data from [Haynes].

Parameters
  • Tk (float) – temperature in (K)

  • Tc (float) – Temperature in (C)

Return type

mean coefficient of thermal expansion in m/m/C

paramCollectionType

alias of armi.reactor.parameters.parameterCollections.MaterialParameterCollection