Cantilever Retaining Wall Design Example (Eurocode) – Step-by-Step Guide

Designing a cantilever retaining wall according to the Eurocodes requires a systematic approach that balances structural integrity with economic efficiency. This methodology is particularly relevant for ground improvement and earth retention projects where a slender, reinforced concrete structure is the optimal solution. The primary goal is to resist the lateral earth pressure exerted by the retained fill, ensuring stability against sliding, overturning, and excessive deflection. This example will illustrate the step-by-step process of translating Eurocode principles into a practical design for a typical cohesive soil scenario.

Understanding the Fundamental Mechanics

The cantilever retaining wall derives its name from its structural behavior, resembling a giant diving board embedded into the ground. The stability of this system relies on the passive resistance of the soil at the base and the weight of the stem and base slab acting downward. The active earth pressure, typically calculated using Rankine or Coulomb theory as per Eurocode 7, creates a resultant force that attempts to push the wall over. Consequently, the base of the wall must be sufficiently wide to generate a counteracting sliding force, while the stem must resist the bending moments induced at the base.

Initial Assumptions and Data Collection

Before engaging with the calculation sheets, the designer must gather critical site-specific data to inform the initial geometry. For this example, we consider a retained fill height of 4.0 meters with a level backfill surface. The retained soil is assumed to be a medium-dense sand with an internal friction angle (φ) of 30° and a unit weight (γ) of 18 kN/m³. The concrete chosen is C25/30, providing a characteristic compressive strength, and the reinforcement is specified as Grade B500 steel. These parameters are essential for determining the pressure distribution and selecting appropriate cross-sectional dimensions.

Cantilever Retaining Wall Design Example Eurocode - Design Talk

Calculating Earth Pressures

The calculation of earth pressures is the cornerstone of the design, and the Eurocode provides clear methodologies for this assessment. The active earth pressure coefficient (K_a) is calculated as (1 - sin φ) / (1 + sin φ), resulting in a value of approximately 0.33 for our example soil. This coefficient is then used to determine the pressure at the top of the wall (zero at the backfill surface) and the pressure at the base (γ × H × K_a). The total resultant force (P_a) acts at a height of H/3 from the base, creating the primary loading condition that the cantilever structure must resist.

Structural Verification of the Stem

With the earth pressure diagram established, the designer must verify the structural capacity of the wall stem to resist the applied moments and shear forces. The stem is treated as a cantilever beam fixed at the base and loaded by the earth pressure distribution. The maximum bending moment occurs at the base and is calculated as P_a × H/3. For our example, this results in a moment that necessitates tension reinforcement at the base face. The cross-sectional dimensions of the stem are initially assumed, and the required area of tensile steel is calculated using the flexure design formulae provided in Eurocode 2, ensuring the concrete remains uncracked under service loads or checking the cracked section capacity.

Foundation Design and Stability Checks

The stability of the entire structure depends on the adequacy of the base slab, which acts as a massive footing resisting the sliding and overturning forces. The design must verify that the factor of safety against sliding (resisting forces over driving forces) and overturning (resisting moments over driving moments) exceed the minimum thresholds specified in the Eurocode, typically ranging from 1.3 to 1.5. Furthermore, the base bearing pressure must be checked to ensure it does not exceed the allowable bearing capacity of the foundation soil, and the resultant force should ideally fall within the middle third of the base to avoid excessive tensile stress at the bottom face.

Cantilever Retaining Wall Design Example Eurocode - Design Talk

Detailing Considerations

Beyond the ultimate limit state checks, a complete design must address serviceability and construction requirements. This includes controlling crack widths in the stem to ensure durability and aesthetics, which is governed by the minimum reinforcement ratios specified in the Eurocode. Drainage provisions are critical to prevent water pressure from developing behind the wall, which could significantly increase the load and lead to premature failure. Additionally, expansion joints must be designed to accommodate volume changes in the concrete and soil, preventing the formation of cracks due to thermal movement or shrinkage.

Finalizing the Design Output

Upon successfully navigating the verification stages, the designer compiles the results into a set of construction drawings and specifications. For the example wall, this output includes the detailed reinforcement layouts for both the stem and the base slab, specifying bar diameter, spacing, and cover. The strip foundation dimensions are finalized, and the required concrete cover is noted to protect the reinforcement from corrosion. This coherent set of documents ensures that the theoretical calculations are translated into a buildable structure that complies with the rigorous safety and performance criteria of the Eurocode standard.

Reference

This document provides the design of a cantilever retaining wall to support a 3m high bank of earth subjected to a surcharge of 14 kN/m^2.

Cantilever Retaining Wall Design Example Eurocode - Design Talk

Cantilever Retaining Wall Design Example Eurocode - Design Talk

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Reference

forces could be calculated in, for example, retaining walls ... Hence, the design of a cantilever embedded retaining wall under the conditions simulated can.

Cantilever Retaining Wall Design Example Eurocode - Design Talk

Cantilever Retaining Wall Design Example Eurocode - Design Talk

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Reference

Eurocode 7 Workshop – Retaining wall examples 5-7. B. Simpson. Arup ... retaining walls: a gravity wall (Example 5), an embedded cantilever (Example 6) and an.

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Cantilever Concrete Retaining Wall Design

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Reference

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Cantilever Retaining Wall Design Example Eurocode - Design Talk

Cantilever Retaining Wall Design Example Eurocode - Design Talk

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Reference

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Design Of Cantilever Retaining Wall Example

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Cantilever Retaining Wall Design Example Eurocode - Design Talk

Cantilever Retaining Wall Design Example Eurocode - Design Talk

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Reference

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14.06.2013 ... e.g. cantilever steel sheet pile walls; anchored or strutted steel or ... Design of embedded walls to Eurocode 7 involves checking:.

DESIGN OF CANTILEVER RETAINING WALL || PART-2 - YouTube

DESIGN OF CANTILEVER RETAINING WALL || PART-2 - YouTube

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29.09.2021 ... 1 – Embedded, cantilever sheet pile retaining wall, 1st example case. Page 5. 18ème Congrès Français de Mécanique. Grenoble, 27-31 août 2007.

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Reference

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14.09.2022 ... You can see examples of a cantilever king post and many L shape designs. ... Our structural engineer designs retaining wall to Eurocode 7.

Cantilever Retaining Wall Design Example Eurocode - Design Talk

Cantilever Retaining Wall Design Example Eurocode - Design Talk

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Reference

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Reference

25.12.2025 ... Calculation notebook for the design of a cantilever-reinforced concrete retaining wall.

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(PDF) DEVELOP A COMPUTERISED PROGRAM FOR ANALYSIS AND DESIGN OF ...

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