Deadman Sheet Pile Wall (SI units)

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1 Deadman Sheet Pile Wall (SI units) Deep Excavation LLC Software program: DeepEX 2018 Document version: 1.0 August 14, DEEP EXCAVATION 1

2 A. Project description In this example we will design a deadman sheet pile wall system, supporting a 7 m excavation. The Figure below presents the project model. Tables 1 and 2 present the soil properties and the stratigraphy respectively. Table 3 presents the external loads. Tables 4 and 5 present the wall and support properties respectively. The general ground surface is at El. 0m and the general water table is at El. -9m. Figure: Project model. Table 1: Soil properties. Design parameter Soil Layer Soil Type φ (deg) C /Su (kpa) γ (kn/m3) γdry (kn/m3) ELOAD (kpa) ERELOAD (kpa) F Fill C Clay S1 Sand S2 Sand Table 2: Stratigraphy. Soil Layer Elevation (m) OCR Ko F C S S DEEP EXCAVATION 2

3 Table 3: External loads. Load Load Type Start Point End Point Load Magnitude Load 1 Strip Surcharge (-15.5,0) (-0.5,0) 25 kpa Table 4: Wall parameters. Left wall Right wall Sheet pile wall width m m Steel pile material A 50 A 50 Sheet pile section AZ 19 AZ 19 Wall length 7 m 15 m DEEP EXCAVATION 3

B. Modeling with DeepEX The model will be created using the DeepEX Model Wizard: Define Analysis Methods: Figure: Analysis Methods in DeepEX Wizard.

4 B. Modeling with DeepEX The model will be created using the DeepEX Model Wizard: Define Analysis Methods: Figure: Analysis Methods in DeepEX Wizard. In this dialog, we choose to apply Limit Equilibrium Analysis method to our model. For the classical earth pressures in design stages with multiple support levels we define FHWA apparent pressures and for the beam analysis we choose CALTRANS method. DEEP EXCAVATION 4

Define project type and dimensions Figure: Project Type and Dimensions in DeepEX Wizard. In this dialog we select the project type (in this case we select the option to create a deadman wall model).

5 Define project type and dimensions Figure: Project Type and Dimensions in DeepEX Wizard. In this dialog we select the project type (in this case we select the option to create a deadman wall model). Next, we define the project dimensions (final excavation depth, walls depth, excavation width, top of the wall elevation and water table). Finally, we define the support properties (in this case the tierod spacing and the tierod structural section). The software will use the same properties (spacing, structural sections etc) for all created supports. Later we can access each support on the model area (double-click on the support) and edit the specific support properties. DEEP EXCAVATION 5

Define soil types and stratigraphy Figure: Soil Types and

the properties for each created soil, as well as, the model

6 Define soil types and stratigraphy Figure: Soil Types and Soil Layers in DeepEX Wizard. Figure: Soil Types and Soil Layers dialogs in DeepEX. In these dialogs we can define the required soil types and the properties for each created soil, as well as, the model stratigraphy by defining the top of the soil layer elevation and the soil type in each layer. DEEP EXCAVATION 6

In these dialogs we select the wall section type (in this case sheet pile

7 Define wall type and wall section properties Figure: Wall types in DeepEX Wizard. Figure: Wall Sections dialog in DeepEX. In these dialogs we select the wall section type (in this case sheet pile wall), the sheet pile section, the wall spacing and the concrete steel materials. DEEP EXCAVATION 7

Define Surcharge Figure: Support Elevations in DeepEX Wizard. In this dialog we define the surcharge type and properties, as well as the surcharge modeling options.

8 Define Surcharge Figure: Support Elevations in DeepEX Wizard. In this dialog we define the surcharge type and properties, as well as the surcharge modeling options. In this case we will use a 25KN strip surcharge, developed for 15m, starting 0.5 behind the left wall. After the model is automatically generated by the software wizard, we can access the stages in the model area and add any required additional loads graphically, using the Draw Loads options in the General tab of DeepEX. DEEP EXCAVATION 8

9 Define structural codes: Figure: Structural Codes in DeepEX Wizard. In this dialog, we can define the structural and geotechnical design codes that we wish to assign to this model. In this case, we will use Eurocode 2 and 3 settings for concrete and steel design. DEEP EXCAVATION 9

10 The software automatically creates all project construction stages, according to our selections in the Model Wizard. The following Figures present the models in Stages 3 and 5 respectively: Figure: Generated Model Stage 3. Figure: Generated Model Stage 5. DEEP EXCAVATION 10

The table below includes some critical checks and values for each construction stage.

11 C. Results in DeepEX Since the model is ready, we can choose to calculate the design section, pressing on the button. After the analysis is succeeded, the Summary table appears. The table below includes some critical checks and values for each construction stage. The following figures present some graphical results from the results tab of DeepEX. Table: DeepEX critical results/stage Figure: Wall moment and shear diagrams, Stage 5. DEEP EXCAVATION 11

12 Figure: Wall deflections and soil pressures diagrams, Stage 5. Figure: Wall embedment safety factors, Stage 5. DEEP EXCAVATION 12