Results of modeling A
==============================

Tested values
---------------

.. csv-table::

    "**Identification**", "**Reference**", "**tolerance**"
    "Temperature (°C)", "", ""
    "", "", ""
    "N184", "91.77"," 1%"
    "N145", "91.77"," 1%"
    "N93", "91.77"," 1%"
    "N46", "91.77"," 1%"
    "N38", "91.77"," 1%"
    "", "", ""
    "N460", "71.22"," 1%"
    "N443", "71.22"," 1%"
    "N440", "71.22"," 1%"
    "N453", "71.22"," 1%"
    "N463", "71.22"," 1%"
    "", "", ""
    "Flux density :math:`(W/\mathrm{m²})` ", "", ""
    "", "", ""
    "Knit :math:`\mathit{m8}`, :math:`\mathit{N184}` ", "11675. "," 2%"
    "Knit :math:`\mathit{m2}`, :math:`\mathit{N460}` ", "6838. "," 2%"



notes
---------

The radiation-type boundary condition is provided in the form of a temperature function interpolated linearly between each point (the curve was discretized into 101 points).