/// <summary>
/// Adds the meta data XML node.
/// </summary>
/// <param name="Metadata">The metadata.</param>
/// <param name="parameterDetail">The parameter detail.</param>
private static void AddMetaDataXMLNode(XElement Metadata, ANSYSParameterDetail parameterDetail)
{
XElement ParameterDetails = new XElement("ParameterDetails");
if (parameterDetail.IdPrefix == "pr")
{
ParameterDetails = new XElement("PropertyDetails");
}
ParameterDetails.SetAttributeValue("id", parameterDetail.IdString);
XElement Name = new XElement("Name");
Name.Value = parameterDetail.Name;
if (parameterDetail.Units != null && parameterDetail.Units.Count > 0)
{
XElement Units = new XElement("Units");
foreach (var item in parameterDetail.Units)
{
XElement Unit = new XElement("Unit");
if (item.Attribite != null)
{
Unit.SetAttributeValue(item.Attribite, item.AttribiteValue);
}
XElement NameOfUnit = new XElement("Name");
NameOfUnit.Value = item.Name;
Unit.Add(NameOfUnit);
Units.Add(Unit);
}
if (parameterDetail.IdPrefix == "pr")
{
ParameterDetails.Add(Units);
ParameterDetails.Add(Name);
}
else
{
ParameterDetails.Add(Name);
ParameterDetails.Add(Units);
}
}
else
{
if (parameterDetail.IdPrefix == "pr")
{
XElement Unitless = new XElement("Unitless");
ParameterDetails.Add(Unitless);
ParameterDetails.Add(Name);
}
else
{
ParameterDetails.Add(Name);
XElement Unitless = new XElement("Unitless");
ParameterDetails.Add(Unitless);
}
}
Metadata.Add(ParameterDetails);
}
/// <summary>
/// Creates the parameter detail.
/// </summary>
/// <param name="type">The type.</param>
/// <param name="idPrefix">The identifier prefix.</param>
/// <param name="Id">The identifier.</param>
/// <param name="Name">The name.</param>
/// <param name="units">The units.</param>
/// <returns></returns>
private static ANSYSParameterDetail CreateParameterDetail(TMPropertyTypeEnum type, string idPrefix, int Id, string Name, IList <ANSYSUnit> units)
{
ANSYSParameterDetail parameterDetail = new ANSYSParameterDetail();
parameterDetail.Id = Id;
parameterDetail.IdPrefix = idPrefix;
parameterDetail.Type = type;
parameterDetail.IdString = idPrefix + Id.ToString();
parameterDetail.Name = Name;
if (units != null && units.Count > 0)
{
parameterDetail.Units = units;
}
return(parameterDetail);
}
/// <summary>
/// Fills the list of parameter details.
/// </summary>
/// <returns></returns>
private static IList <ANSYSParameterDetail> FillListOFParameterDetails()
{
IList <ANSYSParameterDetail> listOfParameters = new List <ANSYSParameterDetail>();
ANSYSParameterDetail parameterDetail = null;
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PhysicalModulusOfElasticity, "pa", 0, "Temperature", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "C"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PhysicalModulusOfElasticity, "pa", 1, "Young's Modulus", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "Pa"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PhysicalPoissonCoefficient, "pa", 2, "Poisson's Ratio", null);
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PlasticStrainStress, "pa", 3, "Bulk Modulus", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "Pa"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PlasticStrainStress, "pa", 4, "Shear Modulus", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "Pa"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PlasticStrainStress, "pa", 5, "Stress", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "Pa"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PlasticStrainStress, "pa", 6, "Plastic Strain", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "m"
}, new ANSYSUnit {
Name = "m", Attribite = "power", AttribiteValue = "-1"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.FatigueStressPoints, "pa", 7, "Alternating Stress", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "Pa"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.FatigueStressPoints, "pa", 8, "Cycles", null);
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.FatigueStressPoints, "pa", 9, "Mean Stress", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "Pa"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.FatigueStrengthCoefficient, "pa", 10, "Strength Coefficient", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "Pa"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.FatigueStrengthExponent, "pa", 11, "Strength Exponent", null);
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.FatigueDuctilityCoefficient, "pa", 12, "Ductility Coefficient", null);
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.FatigueDuctilityExponent, "pa", 13, "Ductility Exponent", null);
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.FatigueCyclicStrengthCoefficient, "pa", 14, "Cyclic Strength Coefficient", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "Pa"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.FatigueCyclicStrengthExponent, "pa", 15, "Cyclic Strain Hardening Exponent", null);
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PhysicalThermalConductivity, "pa", 20, "Thermal Conductivity", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "W"
}, new ANSYSUnit()
{
Name = "m", Attribite = "power", AttribiteValue = "-1"
}, new ANSYSUnit()
{
Name = "C", Attribite = "power", AttribiteValue = "-1"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PhysicalMeanCoeffThermalExpansion, "pa", 22, "Coefficient of Thermal Expansion", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "C", Attribite = "power", AttribiteValue = "-1"
}
});
listOfParameters.Add(parameterDetail);
///Boca
///
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PhysicalThermalConductivity, "pa", 21, "Temperature", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "C"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PhysicalSpecificThermalCapacity, "pa", 26, "Temperature", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "C"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PhysicalMeanCoeffThermalExpansion, "pa", 25, "Temperature", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "C"
}
});
listOfParameters.Add(parameterDetail);
//parameterDetail = CreateParameterDetail(PropertyTypeEnum.None, "pa", 18, "Reference Temperature", new List<ANSYSUnit> { new ANSYSUnit() { Name = "C"} });
//listOfParameters.Add(parameterDetail);
//parameterDetail = CreateParameterDetail(PropertyTypeEnum.None, "pa", 19, "Material Property", null);
//listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PhysicalDensity, "pr", 0, "Density", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "kg"
}, new ANSYSUnit {
Name = "m", Attribite = "power", AttribiteValue = "-3"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.None, "pr", 1, "Elasticity", null);
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.None, "pr", 2, "Isotropic Hardening", null);
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.None, "pr", 3, "Alternating Stress", null);
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.None, "pr", 4, "Strain-Life Parameters", null);
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.MechanicalYield, "pr", 5, "Tensile Yield Strength", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "Pa"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.MechanicalTensile, "pr", 6, "Tensile Ultimate Strength", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "Pa"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PhysicalThermalConductivity, "pr", 20, "Thermal Conductivity", null);
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PhysicalMeanCoeffThermalExpansion, "pr", 21, "Coefficient of Thermal Expansion", null);
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PhysicalMeanCoeffThermalExpansion, "pr", 22, "Reference Temperature", null);
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PhysicalMeanCoeffThermalExpansion, "pa", 23, "Reference Temperature", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "C"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PhysicalMeanCoeffThermalExpansion, "pa", 24, "Material Property", null);
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.PhysicalSpecificThermalCapacity, "pr", 26, "Specific Heat", new List <ANSYSUnit> {
new ANSYSUnit()
{
Name = "J"
}, new ANSYSUnit()
{
Name = "kg", Attribite = "power", AttribiteValue = "-1"
}, new ANSYSUnit()
{
Name = "C", Attribite = "power", AttribiteValue = "-1"
}
});
listOfParameters.Add(parameterDetail);
parameterDetail = CreateParameterDetail(TMPropertyTypeEnum.None, "pr", 10, "Reference Temperature", null);
listOfParameters.Add(parameterDetail);
return(listOfParameters);
}
