Apply Global Fatigue Solution Settings

Apply fatigue solution settings to the entire assembly.

1. In the main toolbar, click Settings > Default fatigue solution settings.
2. Under the General tab in the dialog, choose from the following options:

   Option	Procedure
   Fatigue Method	The following methods are available: Uniaxial Multiaxial
   SN Model Settings	Stress Combination The following stress combination models are available only under uniaxial fatigue method: Critical plane Absolute max principal Maximum principal Signed von Mises Signed max shear Von Mises (random fatigue only) Mean Stress Correction The following mean stress corrections are available only under uniaxial fatigue method: Goodman Gerber Gerber 2 Soderberg FKM Tension Damage Model The following tension damage models are available: Goodman FKM - mean stress sensitivity input is required Shear Damage Model The Findley model is available for shear damage model under multiaxial fatigue method only. Findley constant and shear fatigue strength coefficient are required.
   EN Model Settings	Stress Combination The following stress combinations are available only under uniaxial fatigue method: Critical plane Absolute max principal Maximum principal Signed von Mises Signed max shear Tension Damage Model The following tension damage models are available: Smith, Watson, and Topper Morrow Shear Damage Model The following shear damage models are available only under multiaxial fatigue method: Fatemi-Socie Brown-Miller
   Random Fatigue Model Settings	Damage Model The following damage models are available: Derlik Lalanne Narrow Steinberg 3-band Parameters to Adjust Probability Density Function The following parameters are available: Upper stress range factor/upper stress range (MPa) Number of bins/stress range width
   Endurance limit modifying factors	Select Surface condition. The following options are available: polish, ground, machine, hotroll, forge. Select surface treatment. The following options are available: Nitrided, shotpeen, coldroll. Select fatigue strength reduction factor.
   Number of planes	Enter the number of critical planes.

3. Under the Spot weld tab in the dialog, choose from the following options:

   Option	Procedure
   Model method	The following methods are available: Rupp Modified Rupp
   Mean stress correction	FKM model is available. Mean stress sensitivity input is required.
   Thickness correction	Thickness effect consideration. Thickness reference and thickness reference exponent inputs are required. TREF is used to define the reference thickness for thickness effect consideration. If the thickness of a shell (T) is greater than the specified value (TREF), the thickness effect is included by increasing the stress ( ${\sigma }_{ij}$ ) when thickness correction is applied: (1) $${\sigma }_{\mathit{ij}}={\sigma }_{\mathit{ij}}{\left(\frac{T}{\mathit{TREF}}\right)}^{\mathit{TREF}\_N}$$ Default thickness reference = 25mm Default reference exponent = 0.2
   Endurance limit modifying factors	Certainty of survival. Enter a value based on the scatter of the SN curve. Default = 0.5
   Number of angles	Specify the number of angles to examine on sheet and nugget. Default = 20

4. Under the Seam weld tab in the dialog, choose from the following options:

   Option	Procedure
   Model method	Volvo fatigue analysis method is available. This method calculates the bending and membrane stresses by using stress linearization approach at specific data points at the weld toe. The number of data points are determined by the weld length. Damage is linearly interpolated between these points.
   Stress combination	The following options are available: Normal Critical plane Absolute max principle
   Mean stress correction	FKM model is available. Mean stress sensitivity input is required.
   Bending ratio threshold	Specify the threshold for bending ratio. If the calculated bending ratio is higher than the threshold, an SN curve that is interpolated between membrane stress-life SN curve and bending stress-life SN curve is used. Seam weld membrane stress-life SN curve is used if the calculated value is lower than the threshold. Default = 0.5
   Maximum weld depth	Specify the maximum weld depth. The specified value sets the maximum depth for which stress linearization through the thickness of the connected part from the weld toe is performed. Default = 5mm
   Thickness correction	Thickness effect consideration. Thickness reference and thickness reference exponent inputs are required. TREF is used to define the reference thickness for thickness effect consideration. If the thickness of a shell (T) is greater than the specified value (TREF), the thickness effect is included by increasing the stress ( ${\sigma }_{ij}$ ) when thickness correction is applied: (2) $${\sigma }_{\mathit{ij}}={\sigma }_{\mathit{ij}}{\left(\frac{T}{\mathit{TREF}}\right)}^{\mathit{TREF}\_N}$$ Default thickness reference = 25mm Default reference exponent = 0.2
   Endurance limit modifying factors	Certainty of survival. Enter a value based on the scatter of the SN curve. Default = 0.5

5. Click OK.