ID_SURFACE_EXCESS_SHEAR   Plot > Surface Components > Δτs   Excess Shear Stress

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Contours the excess stress Δτs on DD elements.

This component can be accessed via the Strength Factor Components toolbar as follows:

 

clip0309

 

This toolbar can be changed to a vertical orientation by dragging is against either the right or left hand edge of the main window.

It can be changed back to a horizontal orientation by dragging is against either the top or bottom edge of the main window.

 

Selecting the clip0310 button on the Contours toolbar activates the Surface Components toolbar.

 

clip0312

 

This feature is used only in non-linear analyzes (3D FF blocks in Map3D Non-Linear and DD planes in Map3D Fault-Slip). For details refer to

 

CAD > Properties > Material Properties

 

At each creep step the stress state on all yielding elements (elements where the stress exceeds the strength) is calculated as the strength plus the creep resistance. This limits the size of plastic creep increment Δεplastic on each yielding element

 

τs = Strength + C Δεplastic /Δt

 

C = G Δt

 

where the creep resistance is determined as the creep coefficient C, times the plastic strain rate. Note that the user must select both the creep coefficient C, and the time step size Δt, then specify the quotient of these as the viscous modulus G. The contribution to the stress τs, made by the creep increment is the excess stress given by

 

Δτs   = C Δεplastic /Δt

 

The accumulated plastic strain εplastic, is determined as the sum of the plastic creep increments Δεplastic, for all creep steps.

 

Related Topics:

 

ID_SURFACE_INCREMENTAL_STRAIN Plot > Surface Components > dEs - Incremental Shear Strain

ID_SURFACE_SHEAR_STRESS Plot > Surface Components > Ts - Shear Stress

ID_SURFACE_SHEAR_STRAIN Plot > Surface Components > Es - Shear Strain

 

Analysis > Options > Creep