How can we automatically design the soil pressure over a wall?

 
  • Information
  • Software
    Advance Design
  • Module
    Advance Design - All
  • Version
    ≥2009
  • Type
    Modeling
  • Difficulty
    **

To exemplify this, we need data regarding the emplacement of the future structure. This data is taken from a geotechnical study over the emplacement soil.

How can we automatically design the soil pressure over a wall

Having this data, the active stress "K" can be calculated for each of the soil layers with the formula:

K = tg2(45-Ф/2)

Using this formula we obtain:

- For the layer 1: New added soil: K1=tg2(45-30/2)=0.3333;
- For the layer 2, Brown clay 1: K2.1=tg2(45-20/2)=0.4903;
- For the layer 2, Brown clay 2: K2.2=tg2(45-20/2)=0.4903;
- For the layer 2, Brown clay 3: K2.3=tg2(45-20/2)=0.4903;
- For the layer 2, Brown clay 4: K2.4=tg2(45-19/2)=0.5088;
- For the layer 2, Brown clay 5: K2.5=tg2(45-19/2)=0.5088;
- For the layer 2, Brown clay 6: K2.6=tg2(45-22/2)=0.4550;
- For the layer 3, Yellow clay 1: K3.1=tg2(45-21/2)=0.4724;
- For the layer 3, Yellow clay 2: K3.2=tg2(45-21/2)=0.4724;
- For the layer 4, Loam clay 1: K4.1=tg2(45-20/2)=0.4903;
- For the layer 4, Loam clay 2: K4.2=tg2(45-21/2)=0.4724.

We still need to calculate the K' coefficient that represents a mediated value of all the active stresses from the soil layers above the one calculated:

How can we automatically design the soil pressure over a wall
- For the layer 1: New added soil: K'1= K1=0.3333;
- For the layer 2, Brown clay 1: K'2.1=K1=0.3333;
- For the layer 2, Brown clay 2: K’2.2=(K1+ K2.1)/2 =0.4118
- For the layer 2, Brown clay 3: K’2.3=(K1+ K2.1+K2.2)/3=0.4380
- For the layer 2, Brown clay 4: K’2.4=(K1+ K2.1+K2.2+K2.3)/4=0.4511
- For the layer 2, Brown clay 5:
K’2.5=(K1+ K2.1+K2.2+K2.3+ K2.4)/5=0.4626
- For the layer 2, Brown clay 6:
K’2.6=(K1+ K2.1+K2.2+K2.3+ K2.4+K2.5)/6=0.4703
- For the layer 3, Yellow clay 1:
K’3.1=(K1+ K2.1+K2.2+K2.3+ K2.4+K2.5+K2.6)/7=0.4681
- For the layer 3, Yellow clay 2:
K’3.2=(K1+ K2.1+K2.2+K2.3+ K2.4+K2.5+K2.6+K3.1)/8=0.4687
- For the layer 4, Loam clay 1:
K’4.1=(K1+ K2.1+K2.2+K2.3+ K2.4+K2.5+K2.6+K3.1+K3.2)/9=0.4691
- For the layer 4, Loam clay 2 :
K’4.2=(K1+ K2.1+K2.2+K2.3+ K2.4+K2.5+K2.6+K3.1+K3.2+K4.1)/10=0.4712



How can we automatically design the soil pressure over a wall

With all this available data we can start to define the automatic generated soil pressure over a wall.

We will use a model similar to the one shown in the figure. The structure will be placed under the ground.

Before we insert the data about the soil, we must know that the automatically generated planar forces that are produced by the program are created dependent of the local axes of the support structural element. To make sure that these forces are generated correctly it is necessary to place the planar elements of the structure in a certain way. The local axes must be orientated as in the figure: the X-axis along the length of the element and the Z-axis toward the outside of the structure.

To generate the soil pressure you must select the structural elements and, from the main menu, open the "Pressure generator" using the "Generate / Load / Pressure..." command.




How can we automatically design the soil pressure over a wall

This command will open the "Pressure generator" window. In this window you must select the type of pressure to generate: "Soil". The "Soil Pressure generator" provides the option to chose the direction that the pressure will take action: "Internal" (same direction as the local Z-axis) or "External" (opposite direction to the local Z-axis). In this example, given the way that the local axes of the structural elements are orientated, the appropriate option is "External"

How can we automatically design the soil pressure over a wall

The soil pressure is generated dependent of the soil properties. The soil properties are defined using the "Modify" command and then using "Add".

How can we automatically design the soil pressure over a wall

The soil properties must be inserted for each of the soil layers:

How can we automatically design the soil pressure over a wall


How can we automatically design the soil pressure over a wall


After the soil properties are defined, you must select the load case in which the new generated loads will be included.
For this example a new load case was selected. In "Live loads", a new load case named "Pressure" was created.

How can we automatically design the soil pressure over a wall

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