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CEE 434 GEOTECHNICAL DESIGN FALL 2008

RETAINING WALLS – PART I. CEE 434 GEOTECHNICAL DESIGN FALL 2008. Why?. Applications. Do not go where the path may lead, go instead where there is no path and leave a trail.“ -Ralph Waldo Emerso. Tie rod. Anchor. Sheet pile. Permanent / Temporary Retaining Structures.

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CEE 434 GEOTECHNICAL DESIGN FALL 2008

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  1. RETAINING WALLS – PART I CEE 434 GEOTECHNICAL DESIGN FALL 2008

  2. Why?

  3. Applications Do not go where the path may lead, go instead where there is no path and leave a trail.“-Ralph Waldo Emerso

  4. Tie rod Anchor Sheet pile Permanent / Temporary Retaining Structures Cantilever retaining wall Braced excavation Anchored sheet pile From: N. Sivakugan

  5. Additional Applications Gravity Retaining wall Soil nailing Reinforced earth wall From: N. Sivakugan

  6. Sheet Pile Walls From: N. Sivakugan

  7. geosynthetics Mechanically Stabilized Earth (MSE) Walls Reinforced earth wallsare increasingly becoming popular. From: N. Sivakugan

  8. Crib Walls filled with soil Good drainage & allow plant growth. Looks good. Interlocking stretchers and headers From: N. Sivakugan

  9. Active/Passive Earth Pressures Wall moves away from soil Wall moves towards soil A B smooth wall Granular Soils From: N. Sivakugan

  10. h’ Passive state Active state K0 state Wall movement (not to scale) From: N. Sivakugan

  11. failure envelope Initially (K0 state) Failure (Active state)  decreasing h’ Active Earth Pressure - in granular soils As the wall moves away from the soil, v’ active earth pressure = pa From: N. Sivakugan

  12. failure envelope Initially (K0 state) Failure (Active state)  increasing h’ Passive Earth Pressure - in granular soils As the wall moves towards the soil, passive earth pressure v’ = pa From: N. Sivakugan

  13. Rankine vs. Coulomb Theory Source: B.M. Das

  14. Coulomb: Active Case Source: B.M. Das

  15. Coulomb: Passive Case Source: B.M. das

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