Bricks are small rectangular blocks that can be used to form parts of buildings, typically their walls. The use of bricks dates back to before 7,000 BC, when the earliest bricks were formed from hand-moulded mud, dried in the sun. During industrial revolution, mass-produced bricks became a common alternative to stone, which could be more expensive, less predictable and more difficult to handle.
Bricks are still in common use today for the construction of walls and paving and for more complex features such as columns, arches, fireplaces and chimneys. They remain popular because they are relatively small and easy to handle, can be extremely strong in compression, are durable and low maintenance, they can be built up into complex shapes and can be visually attractive.
However, more recently, other materials have been developed that can be used as alternatives for building walls or for cladding facades and for some building types, particularly larger buildings, bricks can be seen as time consuming, expensive (although this is disputed by the Brick Development Association), structurally limiting, and requiring too much on-site labour. Some of these difficulties have been overcome by the introduction of reinforcement systems and by the development of pre-fabricated brick panels.
In the UK, standard bricks are 215 mm long × 102.5 mm wide × 65 mm high.
This gives a ratio of 3:2:1:
- With a standard mortar joint of 10 mm, a repeating unit of bricks laid in a stretcher bond will be 225 mm lengthwise and 75 mm in height.
- If bricks are laid cross-wise, two 102.5 mm widths plus two mortar joints gives the same repeating unit as the length of one brick, ie 225 mm.
- If they are laid height wise, three 65 mm heights plus three mortar joints gives the same repeating unit as the length of one brick, ie 225 mm.
Bricks are most typically made from clay, although they are also commonly made from calcium-silicate and concrete.
Soft mud or dry-press bricks are formed by pressing the brick mixture into moulds and then firing them in a kiln. Soft-mud bricks are made from a thin mix whereas dry-press bricks are made from a thicker mix that gives crisper definition. Greater strength is achieved by using greater force when pressing the brick and by firing it for longer, but this increases the cost.
Extruded bricks are formed by pushing the brick mixture through a die to create an extrusion that is then wire cut to produce bricks of the required length.
Bricks can be solid, or can have holes perforated through them to reduce the amount of material used. Alternatively they may have an indentation on one surface (or two surfaces) commonly called a ‘frog’. The frog must be filled with mortar when bricks are laid otherwise the structural and acoustic performance of the wall will be affected. For this reason it is best practice to lay bricks with the frog facing upwards so that it is easy to fill. Where there are two frogs, the larger frog should face upwards.
For information about how bricks are tested, see Testing bricks.
 Special bricks
Other than the standard rectangular block, a number of special shapes exist for particular circumstances that may be encountered when building with bricks. These include:
- Radial, tapered or arch bricks.
- Angle and cant bricks that form returns and chamfers.
- Bullnose bricks with rounded corners.
- Capping and coping bricks.
- Cill bricks.
- Plinth bricks.
- Slip bricks (thin bricks that can be used for cladding).
- Soldier bricks, that form returns for soldier courses.
Bricks can also be cut to size.
Bricks can be laid as soldiers (standing upright), stretchers (laid lengthwise along the wall) or headers (laid width wise along the wall).
Bricks are laid with a mortar joint bonding them together. The profile of the mortar joint (pointing) can be varied depending on exposure or to create a specific visual effect. The most common profiles are; flush (rag joint), bucket handle, weather struck, weather struck and cut, and recessed.
- Stretcher bond. This is the most commonly used bond in the UK. Each stretcher (brick laid length-wise) is offset by half a brick relative to the course above and below.
- English bond. Alternating courses of stretchers and ‘headers’ (bricks laid width-wise) are laid with the alternating courses aligned to one another.
- American common bond. Similar to the English bond but with one course of headers for every six stretcher courses.
- English cross bond. Alternating courses of stretchers and headers, but with the alternating stretcher courses offset by half a brick.
- Flemish bond. Alternating stretchers and headers in each course.
- Header bond. Courses of headers offset by half a brick.
- Stack bond. Bricks laid directly on top of one another with joints aligned. This is a fundamentally weak bond and is likely to require reinforcement.
- Garden wall bond. Three courses of stretchers then one course of headers.
- Sussex bond. Three stretchers and one header in each course.
For more information, see Types of brick bonding.
 Related articles on Designing Buildings Wiki
- Brick veneer.
- Cavity tray.
- Cavity wall.
- Coal ash.
- Damp-proof course.
- Defects in brickwork
- Defects in stonework.
- Dry lining.
- Interstitial condensation.
- Lime mortar.
- Parge coat.
- Swift brick.
- Testing bricks.
- Treating brickwork with sealant or water repellent.
- Types of brick bonding.
- Wall tie failure.
 External references
Featured articles and news
An introduction to the categories, procedures and types of listed buildings.
This Australian robotics firm have developed a bricklaying machine capable of building a house in 3 days.
20bn devices will be online by 2020, generating huge volumes of information. Is society making the most of this rich data?
Built over a period of 632 years, Cologne Cathedral is considered one of the world's finest examples of Gothic architecture.
UandI adds £1.5bn to development pipeline.
Here are 5 things leaders can do to create a truly circular economy.
Find out about the different types of delays on construction projects.
Researchers at Wien university have developed new system to create an inflatable concrete structure.
ICE responds to the first consultation on the government's industrial strategy post-Brexit.
Take a look at this newly-opened tower in Chicago with a remarkable 20:1 height-to-base ratio.
The principles, practice and formwork of one of the most important components of modern architecture.