Kerbs
Kerbs
Kerbs
CHENGXINRUN Product Page
Introduction
As an element of roads and highways, kerbs (kerbstone, crib-stane (Scots) or sometimes curbs (US)) serve several purposes:
- Defining the limits of the carriageway.
- Containing the carriageway to prevent 'spreading' and loss of structural integrity.
- Creating a barrier between vehicles and pedestrians.
- Providing a physical 'check' to prevent vehicles from leaving the carriageway.
- Allowing surface water to drain away by forming a channel.
Traditionally, natural stone was the most commonly used material for kerbs, but these have now largely been replaced by pre-cast concrete.
Kerb Construction
For most purposes, the top of the kerb should be 100 mm above the road surface. If kerbs are placed too high, it can induce 'kerb shyness', where the width of the carriageway is effectively reduced.
Kerbs are typically laid on a concrete bed of at least 100 mm thickness so that they are joined with the pavement. The back of the kerbing should be haunched with concrete to a thickness of at least 150 mm to provide lateral support. Kerbs can then be tapped down to the correct level. The joints between kerbs are often not mortared but are laid as tightly as possible without risking the units spalling.
The basic kerb profiles used for road construction are:
- Half-battered.
- Bull-nosed.
- Splayed.
- Square.
Traditionally, most straight kerbs are 915 mm in length, but a range of shorter lengths are also manufactured. Radius kerbs are usually 780 mm in length.
Other than those with a square profile, kerbs have a 'watermark' or 'waterline' above which the surface level and surface water is not normally expected to extend. This generally coincides with a change in the angle of the kerb face. It is usual for the surface level to be kept 25 mm or more below the watermark.
Bull-nosed or chamfered kerbs are used to lower the profile of the kerb for pedestrian crossings and driveway access. Linking kerbs between two different profiles are described as transition kerbs or 'droppers'.
Concrete kerbs can also be cast in situ with an automatic kerbing machine.
A kerb line bend is known as a radius. Sometimes a radius is laid using straight kerbs, although there are specially manufactured kerbs available that can create accurate internal (concave) or external (convex) curves. A radius is described as being either 'fast' or 'slow', with the fast radius being shorter than the slow one.
Types of Kerbs
Extruded Kerbs
Extruded kerb edging is commonly used on long, straight roads such as motorways, dual carriageways, and the highways of America and Australia. Using a laying machine, the kerb is formed of concrete or asphalt bonded to the existing asphalt surface.
Extruded concrete kerbs can be laid by a slip-form paver machine that creates the kerb as it progresses along the road.
Granite is often the most popular choice, although gabbro, basalt, and sandstone may also be used. Natural stone has high durability but can be expensive. Highways agencies may experience issues when trying to repair or replace natural stone kerbs that may be over 100 years old as they very often are of random sizes, whereas modern stone kerbs are formed to a standard profile and finish.
These are the most common choice for kerbing as they are strong, durable and relatively cheap. In addition, they can be manufactured to strict tolerances.
Quadrants and Angles
Quadrant and angle kerbs are manufactured to complement straight and radius kerbs. They come in various angles and sizes. Quadrant blocks, also known as 'cheese', can be cut to create angles of less than 90°.
Special Kerbs
Lightweight kerbs are easier to handle, and their use has been encouraged for health and safety reasons. Kerb lengths are usually 450 mm, and the profile has a frog (recess) which reduces the weight of each unit. Haunch concrete fills the frog so there is no loss of performance when laid.
For more Custom Made Granite Kerbs information, please contact us. We will provide professional answers.
High Containment Kerbs
Also known as trief or titan kerbs, these are bigger than normal kerbs, usually around 450 mm in height, and can weigh nearly a quarter of a tonne. Their purpose is to prevent traffic from leaving the carriageway and they are used on dangerous curves, for pedestrian islands, and to protect footpaths or equipment.
Bus Stop Kerbs
These are specially designed kerbs used at bus stops to ease passenger access. They can include a tactile feature such as a rumble strip so that the bus driver can assess and minimize the gap between kerb and bus door without risk of making contact with the tyres against the kerb.
Kerb-Drain Systems
These are hollowed-out with gaping inlets on the face. Road surface water falls into the internal 'chamber' or 'pipe' and is directed to the stormwater drainage system or a SUDS facility.
Aesthetic Kerbs
These are kerbs designed for aesthetic and decorative purposes. For example, they can be textured or feature exposed aggregate.
These 'small unit' kerbs are manufactured to conform with the scale and aesthetics of block paving schemes. As well as being popular on private driveways and courtyards, they are commonly found on cul-de-sacs and feeder roads on residential estates.
Dropper / Dropped Kerb
The second edition of The Dictionary of Urbanism by Rob Cowan, published in 2020, defines a dropped kerb/curb (UK/US): 'A short stretch of kerb that has been lowered to allow vehicles to drive across the pavement and park in driveways which used to be front gardens; a section of kerb lowered to let people in wheelchairs or with buggies to cross the road.'
A dropper kerb/curb is: 'The kerbstones required to create a dropped kerb.'
Everything You Need To Know About Road Kerb
Purposes of Road Kerb
Road kerbs serve several important purposes in road construction and maintenance. One of the primary purposes of road kerbs is to provide a physical barrier between the road and the surrounding terrain. This helps to prevent soil erosion and damage to the road caused by weather and other natural factors.
Another important purpose of road kerbs is to help channel water away from the road surface. By directing water to drainage systems or roadside ditches, road kerbs can prevent flooding and water damage to the road.
Benefits of Road Kerbs
In addition to their primary purpose, road kerbs provide several benefits, including:
Improved Safety
Road kerbs help to improve safety on the road by preventing vehicles from leaving the road surface.
Better Drainage
Channel kerbs help to direct water away from the road surface, preventing flooding and damage to the road.
Enhanced Aesthetics
Road kerbs can be designed to enhance the aesthetics of the road, providing a more pleasing visual appearance.
Increased Property Value
Well-designed road kerbs can increase the value of adjacent properties by improving the overall look and feel of the area.
Types of Road Kerbs
There are four types of kerbs:
- Low or Mountable Kerbs
- Low-Speed Barrier or Urban Parking Kerbs
- High-Speed Barrier Kerbs
- Submerged Kerbs
1. Low or Mountable Kerbs
Low or mountable kerbs, also known as class I kerbs, are designed to control traffic and ensure that vehicles stay within their designated lanes. The primary advantage of this type of kerb stone is that it provides easy access for drivers to enter the shoulder area. This feature makes it ideal for roads with a longitudinal drainage system.
Low or mountable kerbs are typically 70 to 80 mm in height, making them easy to drive over without causing damage to the vehicle. This type of kerb is also useful in areas where pedestrian safety is a concern, such as school zones or residential areas.
The company is the world’s best Cropped and Flamed Setts supplier. We are your one-stop shop for all needs. Our staff is highly specialized and will help you find the product you need.