3.4 Pore Pressure Conditions
- MacSlope allows pore pressure conditions to be assigned for each material in the drawing, through the use of a pore pressure coefficient, ru or B-bar, or with a piezometric surface.
- Pore pressure conditions can be assigned to a material using the Material Editor Tool .
- MacSlope calculates the pore pressure at the base of a slice from a piezometric surface as follows:
Working with Piezometric Surfaces
- To create a piezometric surface, tap the Piezo Line Tool in the Drawing tab of the tool palette.
- The Piezometric Surface Pane is displayed to the right of the drawing. It contains a list of all the points that make up the lines for the piezometric surfaces in the drawing geometry.
- The Current Piezometric Surface is indicated in the table. Click the desired surface row in the table to change the current surface.
- Click the Add Surface button to add a new piezometric surface to the drawing.
- Click the Remove Surface button to remove the current piezometric surface from the drawing. All lines belonging to that surface are removed.
- Click the Edit Points button to edit point locations, similar to when using the Line tool.
- Click and move your cursor inside the drawing bounds to create lines for the Current Piezometric Surface.
- A piezometric surface identifier number is drawn above each line to indicate which piezometric surface it is a part of.
- A piezometric surface can not contain piezometric lines with multiple piezometric elevations for the same distance coordinate.
- An unlimited number of piezometric surfaces may be drawn in one drawing geometry for use with different materials. Once drawn, the piezometric surface is available to be assigned from the material editor tool.
- Pore pressure may be specified through the use of an ru coefficient, defined as:
- Pore pressure may be specified through the use of a B-bar coefficient, defined as:
- If the Loads B-bar Materials field is enabled for a material in the material editor tool, that material will contribute towards the pore pressure acting at a slice base where that material is encountered above the slice base, with Δσ1 equal to the vertical pressure exerted by the total unit weight from that material.
Combining piezometric surfaces and pore pressure coefficients
- It is possible to combine the use of piezometric surfaces and pore pressure coefficients in MobiSlope.
- Pore pressures generated at the slice base by piezometric surfaces and pore pressure coefficients are added to each other.
- Caution is advised as assigning pore pressure conditions by multiple methods for the same material can be confusing. Plots of the base pore pressure and base pore force with distance over the slip surface can be made with the Inspector Tool to ensure the pore pressure conditions are as expected.