# Copyright 2019 TerraPower, LLC
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""
Zirconium metal
"""
from numpy import interp
from armi.materials.material import Material
from armi.utils.units import getTk
[docs]class Zr(Material):
"""Metallic zirconium"""
name = "Zirconium"
propertyValidTemperature = {
"density": ((293, 1800), "K"),
"linear expansion": ((293, 1800), "K"),
"linear expansion percent": ((293, 1800), "K"),
"thermal conductivity": ((298, 2000), "K"),
}
references = {
"density": "AAA Materials Handbook 45803",
"thermal conductivity": "AAA Fuels handbook. ANL",
"linear expansion": "Y.S. Touloukian, R.K. Kirby, R.E. Taylor and P.D. Desai, Thermal Expansion, Thermophysical Properties of Matter, Vol. 12, IFI/Plenum, New York-Washington (1975)",
"linear expansion percent": "Y.S. Touloukian, R.K. Kirby, R.E. Taylor and P.D. Desai, Thermal Expansion, Thermophysical Properties of Matter, Vol. 12, IFI/Plenum, New York-Washington (1975)",
}
linearExpansionTableK = [
293,
400,
500,
600,
700,
800,
900,
1000,
1100,
1136.99999,
1137,
1200,
1400,
1600,
1800,
]
linearExpansionTable = [
5.70e-6,
5.90e-6,
6.60e-6,
7.10e-6,
7.60e-6,
7.90e-6,
8.00e-6,
8.20e-6,
8.20e-6,
8.20e-6,
9.00e-6,
9.10e-6,
9.50e-6,
1.03e-5,
1.13e-5,
]
def __init__(self):
Material.__init__(self)
referenceTemp = 298.15
referenceDensity = self._computeReferenceDensity(Tk=referenceTemp)
self.p.refTempK = referenceTemp
self.p.refDens = referenceDensity
[docs] def setDefaultMassFracs(self):
self.setMassFrac("ZR", 1.0)
def _computeReferenceDensity(self, Tk=None, Tc=None):
r"""AAA Materials Handbook 45803"""
Tk = getTk(Tc, Tk)
self.checkPropertyTempRange("density", Tk)
if Tk < 1135:
return -3.29256e-8 * Tk ** 2 - 9.67145e-5 * Tk + 6.60176
else:
return -2.61683e-8 * Tk ** 2 - 1.11331e-4 * Tk + 6.63616
[docs] def thermalConductivity(self, Tk=None, Tc=None):
"""
Thermal conductivity in W/mK.
Reference: AAA Fuels handbook. ANL.
"""
Tk = getTk(Tc, Tk)
self.checkPropertyTempRange("thermal conductivity", Tk)
return 8.853 + (0.007082 * Tk) + (0.000002533 * Tk ** 2) + (2992.0 / Tk)
[docs] def linearExpansion(self, Tk=None, Tc=None):
r"""linear expansion in m/mK
Reference: Y.S. Touloukian, R.K. Kirby, R.E. Taylor and P.D. Desai, Thermal Expansion,
Thermophysical Properties of Matter, Vol. 12, IFI/Plenum, New York-Washington (1975)
See page 400
"""
Tk = getTk(Tc, Tk)
self.checkPropertyTempRange("linear expansion", Tk)
return interp(Tk, self.linearExpansionTableK, self.linearExpansionTable)
[docs] def linearExpansionPercent(self, Tk=None, Tc=None):
r"""linear expansion in dL/L
Reference: Y.S. Touloukian, R.K. Kirby, R.E. Taylor and P.D. Desai, Thermal Expansion,
Thermophysical Properties of Matter, Vol. 12, IFI/Plenum, New York-Washington (1975)
See page 400
"""
Tk = getTk(Tc, Tk)
self.checkPropertyTempRange("linear expansion percent", Tk)
# NOTE: checkPropertyTempRange takes care of lower/upper limits
if Tk < 1137:
return (
-0.111 + (2.325e-4 * Tk) + (5.595e-7 * Tk ** 2) - (1.768e-10 * Tk ** 3)
)
else:
return (
-0.759 + (1.474e-3 * Tk) - (5.140e-7 * Tk ** 2) + (1.559e-10 * Tk ** 3)
)