public override double[] ComputeElementState(double z0, double z1, double z2)
{
for (var i = 0; i < 8; i++)
{
elementTemperatures[i] = Nodes[i].NodalDof[0];
}
// midPointHeatState = E * Sx(transponiert) * Temperatures
var midpointHeatState = MatrizenAlgebra.MultTransposed(Sx, elementTemperatures);
midpointHeatState = MatrizenAlgebra.Mult(e, midpointHeatState);
return(midpointHeatState);
}
public override double[] ComputeElementState(double z0, double z1)
{
_ = new double[2]; // in element
ComputeGeometry(z0, z1);
Sx = ComputeSx(z0, z1);
for (var i = 0; i < NodesPerElement; i++)
{
elementTemperatures[i] = Nodes[i].NodalDof[0];
}
var conductivity = material.Leitfähigkeit[0];
var midpointHeatState = MatrizenAlgebra.MultTransposed(-conductivity, Sx, elementTemperatures);
return(midpointHeatState);
}
public override double[] ComputeElementState(double z0, double z1)
{
var elementWärmeStatus = new double[2]; // in element
ComputeGeometry();
if (Modell.Material.TryGetValue(ElementMaterialId, out var abstractMaterial))
{
}
material = (Material)abstractMaterial;
ElementMaterial = material;
if (Modell.Elemente.TryGetValue(ElementId, out element))
{
for (var i = 0; i < element.Nodes.Length; i++)
{
if (Modell.Knoten.TryGetValue(element.NodeIds[i], out knoten))
{
}
//Debug.Assert(node != null, nameof(node) + " != null");
if (knoten != null)
{
elementTemperatures[i] = knoten.NodalDof[0];
}
}
if (material == null)
{
return(elementWärmeStatus);
}
var conductivity = material.Leitfähigkeit[0];
elementWärmeStatus = MatrizenAlgebra.MultTransposed(-conductivity, Sx, elementTemperatures);
}
else
{
throw new ModellAusnahme("Element2D3: " + ElementId + " nicht im Modell gefunden");
}
return(elementWärmeStatus);
}
