Geotechnical Settlement: Types and How They Work (2024)

The geotechnical settlement of soil occurs when the stresses within it change. For example, when an excessive load is applied to the surface or the ground is excavated to make tunnels. Soil settlement can have catastrophic consequences, such as the collapse of structures supported by the ground.

This guide explains soil settlement in geotechnical engineering, outlining what it is, the factors that can cause it to occur and the three main components that make up total settlement over time. We’ll also explore the different types of soil settlement including differential settlement, and the effects they can have on structures. And finally we’ll look at how geogrids can reduce geotechnical settlement.

Use the links below to jump to the sections you’re most interested in:

What is geotechnical settlement?
What causes soil settlement?
The three components of geotechnical settlement
Types of soil settlement
- Uniform settlement
- Differential settlement
- Curvature settlement
How geogrids can reduce geotechnical settlement

What is geotechnical settlement?

In geotechnical engineering, settlement is defined as the downward vertical movement of the ground or soil due to changes in stresses within it, often caused by the settlement load on the surface.Excessive ground movements can cause damage in buildings, structures and transport infrastructure, from bridges and tunnels to road pavements and railways.

What causes soil settlement?

Geotechnical settlement is typically the result of loading (from a building or vehicles moving along on a road, for example) exceeding the ground’s bearing capacity. Due to site ground pressures, pore water pressure increases and then dissipates, causinconsolidation settlement, where the soil beneath the structure moves vertically and horizontally. Weak and poorly compacted soils are particularly vulnerable.

Soil settlement can be caused by other factors too, such as changes in soil moisture content, for example, saturated cohesive soils may soften ordrier cohesive soils may shrink.Deep excavations and tunnelling, plus the collapse of naturally occurring voids or abandoned mine workings, are also key factors in causing different types of settlement.

Settlement can occur almost immediately after a load is applied or take years, depending on the underlying soil conditions and the cause of movement. Geotechnical engineers often carry out settlement analysis prior to construction to analyse the ground conditions and recommend foundation solutions for preventing settlement in the future.

Installation of a Tensar mechanically stabilised layer to prevent differential settlement in soil

The three components of geotechnical settlement

The overall process of geotechnical settlement is made up of three main components occur at different stages:

Immediate settlement

As the name suggests, immediate settlement occurs straight away as soon as the load is applied to the soil. When the load is applied, stresses in the soil change and the soil particles are rearranged, causing a reduction in void space.

Consolidation settlement

Consolidation settlement occurs because water is gradually squeezed out from between the soil particles over time. This reduces the void space that separates the soil particles such that the soil moves downwards.

Creep settlement

Once the consolidation settlement phase is completed, creep settlement begins. This component of soil settlement continues over a long period of time due to the constant pressure of the load – the amount of creep settlement varies depending on the soil type and its anisotropy, as well as the stress history and stress level in the ground.

Types of settlement in soil

There are three main types ofsettlement in geotechnical engineering:

Uniform settlement
Differential settlement
Curvature settlement

These three settlement types and their effects on the structures supported by the ground are considered in detail below.

Uniform settlement

If uniform settlement occurs, the structure (or road or railway) will settle by the same amount along its length and no damage will occur, making it the least concerning type of settlement. Uniform settlement essentially lowers the structure in its existing place, whether straight or on a tilt.

Differential settlement

Differential settlement occurs when one part of a structure’s foundation settles more, or faster, than the other. If one edge of a structure moves more than another, the structure will tilt, like the Leaning Tower of Pisa. This is caused by variations in soil (see below), which can lead to cracks in the structure and often catastrophic failure.

What causes differential settlement?

Differential settlement is caused by a number of factors, including:

Type of soil: Differential settlement is most commonly caused by differences in the type of soil beneath a foundation. For example, sand will settle more than clay.
Moisture in the soil: Soil that is too dry or too wet will settle more than soil that is at a moderate moisture level.
Weight on the soil: A foundation that is too heavy or has too much weight on it will settle more than a lighter foundation.
Size and depth: Size and depth of the foundation can also affect differential settlement. For example, a shallower foundation will settle more than a deeper foundation and a larger foundation will settle more than a smaller foundation.
Shape of the foundation: A foundation that is not level or has an irregular shape will settle more than a level foundation with a regular shape.

Curvature settlement

If a structure tilts, then a straight line can be drawn between one of its edges to the other. If, however, this line is curved, then this indicates different sections of the structure are moving to a greater or lesser degree.

This curvature settlement can cause distortions in the structure, inducing tensile strains that cannot be sustained by building materials (such as masonry and brickwork) or by road surfacing. Eventually this will lead to damage and cracking (and in railways, excessive curvature can mean trains cannot run on distorted tracks).

Curvature can be expressed by the deflection ratio: the maximum vertical movement, divided by the length of the structure over which that movement is measured. Curvature is therefore a key consideration when assessing settlement performance of structures.

Ground Coffee - Episode two (settlement). Andrew Lees discusses what type of settlement actually causes damage to buildings and pavements?

How geogrids can reduce geotechnical settlement

Geogrids are commonly used in granular layers to mitigate the effects of uniform and differential settlement when building on weak ground (although the approach is suitable for any ground conditions).

A granular layer stabilised with Tensar geogrids performs as a composite, due to the interlocking mechanism and particle confinement that develops between the aggregate and the geogrid apertures under loading. By controlling lateral and vertical displacement of the granular particles, this mechanically stabilised layer (MSL) can delay settlement.

Tensar InterAx interlock with aggregate

Next steps

This guide has explained the geotechnical settlement of soil. Along the way, we’ve looked at what soil settlement is, the causes, the three main components, different types of soil settlement and how geogrids can reduce its effects.

Found this post interesting? You might also like to read:

What Is the Shear Strength of Soil?
Plate Load Tests - Uses, Plate Size and Interpretation
Bearing Capacity of Soil - Types and Calculations

Tensar manufactures the most advanced geogrids available, helping to reduce the amount of geotechnical soil settlement that occurs beneath structures. Visit our geogrids page to learn more – or take a look at our applications page to see how they’re used in practice.

FAQs

Geotechnical Settlement: Types and How They Work? ›

The three components of geotechnical settlement

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What are the three types of soil settlement? ›

Immediate Settlement (Si):- Defined as settlement which occurred directly after. the application of a load, without a change in the moisture content. ...
Primary Settlement (Consolidation) (Sc):- Due to gradual dissipation of pore. ...
Secondary Settlement (Creep) (Ss):- Occurs at constant effective stress with.

Sep 30, 2019

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What are the different types of settlement in architecture? ›

The four main types of settlements are urban, rural, compact, and dispersed. Urban settlements are densely populated and are mostly non-agricultural. They are known as cities or metropolises and are the most populated type of settlement. These settlements take up the most land, resources, and services.

What is the difference between primary and secondary settlement? ›

Primary consolidation is short-term and takes place during the mechanical compacting process. Secondary consolidation is long-term and takes place after the compaction process is complete and the permanent loads are in place.

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What is the soil settlement process? ›

Settlement is the downward movement of the ground (soil) when a load is applied to it. The load increases the vertical effective stress exerted onto the soil. This stress, in turn, increases the vertical strain in the soil. This increase in vertical strain causes the ground to move downward.

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What are the different types of settlement methods? ›

There are two types of settlement - Rolling Settlement and Account Settlement. Rolling settlement is a process where trades are settled on T+1 day. In this process, the settlement period keeps rolling forward every day.

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What are the different types of settlements in order? ›

The generally accepted order of the hierarchy is:

Isolated dwelling (>10 people)
Hamlet (>100 people)
Village (100-1,000 people)
Small town (1,000-20,000 people)
Large town (20,000-100,000 people)
City (100,000-one million people)
Large city or conurbation (<1,000,000 people)

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What are the different types of settlement in geotechnical engineering? ›

Immediate settlement (also known as elastic settlement) Consolidation settlement (or primary settlement) Creep settlement (or secondary settlement).

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What is settlement in geotechnical engineering? ›

In geotechnical engineering , settlement is defined as the vertical movement of the ground, generally caused be changes in stresses within the earth. Subsidence is a term often used to described 'caving in' or sinking of the ground, that may not be associated within changes in soil stresses.

What are the five types of settlement? ›

There are 5 types of settlement classified according to their pattern, these are, isolated, dispersed, nucleated, and linear. An isolated settlement consists of a single farm or house very remote from any other one, usually found in farming or hunting rural communities.

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What are 2 main types of settlement? ›

Human settlements can broadly be divided into two types – rural and urban.

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What is the difference between primary and secondary consolidation settlement? ›

When the rate of densification is controlled by the time required for expulsion of fluids, this volume change is called primary consolidation. Secondary consolidation is the volume change controlled by anything else, such as the sliding of particles over each other or compression of particles.

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What is the meaning of primary consolidation settlement? ›

To distinguish between the two mechanisms, "primary consolidation" refers to consolidation due to dissipation of excess water pressure, while "secondary consolidation" refers to the creep process.

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What is the formula for settlement in geotechnical engineering? ›

Therefore, to determine the settlements, it is necessary to know: the course of vertical stresses σ_z with depth. The settlement-generating base stress σ₁ = σ₀ - γ • h must be used, taking into consideration the stress reduction by the excavation unloading for the embedment depth of the foundations.

How long does land have to settle before building? ›

On average, it takes between 5 to 10 years for disturbed or loosened soil to naturally settle and compact. However, consistent water exposure can expedite this settling process. If you install concrete on soil that has been majorly disturbed within the last 5 to 10 years, you run a high risk of your concrete settling.

What is the difference between consolidation and settlement in geotechnical engineering? ›

Consolidation is settlement due to expulsion of pore water in saturated clay where as settlement may be expulsion of air and rearrangement of soil particles. Consolidation occurs only in clayey soil but settlement may be in any soil type.

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What are two settlement types? ›

Human settlements can broadly be divided into two types – rural and urban.

What is the most common type of settlement? ›

The most common type of settlement in the world is a nucleated settlement. Nucleated settlements are characterized by buildings clustered together in close proximity to one another. This type of settlement is commonly found in urban areas, where buildings are constructed close together due to limited space.

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What is the difference between elastic settlement and consolidation settlement? ›

Elastic settlement occurs in sandy, silty, and clayey soils. * Consolidation settlement occurs in cohesive soils due to the expulsion of the water from the voids. * Because of the soil permeability the rate of settlement may varied from soil to another.

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What is the difference between total settlement and differential settlement? ›

Total settlement refers to the overall change in vertical distance. Differential settlement involves an expected amount that the total settlement will vary between points over a horizontal distance, which can be caused by variations in the foundation soil profile and wall height over a certain distance.

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