Middle East and South Asia stupa of
Anuradhapura in
Sri Lanka is one of the largest brick structures in the world. The earliest bricks were dried
mudbricks, meaning that they were formed from clay-bearing earth or mud and dried (usually in the sun) until they were strong enough for use. The oldest discovered bricks, originally made from shaped mud and dating before 7500 BC, were found at
Tell Aswad, in the upper
Tigris region and in southeast
Anatolia close to
Diyarbakir. Mudbrick construction was used at
Çatalhöyük, from c. 7,400 BC. Mudbrick structures, dating to c. 7,200 BC have been located in
Jericho, Jordan Valley. These structures were made up of the first bricks with dimensions of . Between 5000 and 4500 BC, Mesopotamia had discovered fired brick. The
South Asian inhabitants of
Mehrgarh also constructed air-dried mudbrick structures between 7000 and 3300 BC and later the ancient
Indus Valley cities of
Mohenjo-daro,
Harappa, and
Mehrgarh. Ceramic, or
fired brick was used as early as 3000 BC in early Indus Valley cities like
Kalibangan. In the middle of the third millennium BC, there was a rise in monumental baked brick architecture in Indus cities. Examples included the
Great Bath at Mohenjo-daro, the fire altars of
Kaalibangan, and the granary of
Harappa. There was a uniformity to the brick sizes throughout the
Indus Valley region, conforming to the 1:2:4, thickness, width, and length ratio. As the Indus civilization began its decline at the start of the second millennium BC, Harappans migrated east, spreading their knowledge of brickmaking technology. This led to the rise of cities like
Pataliputra,
Kausambi, and
Ujjain, where there was an enormous demand for kiln-made bricks. By 604 BC, bricks were the construction materials for architectural wonders such as the
Hanging Gardens of Babylon, where glazed fired bricks were put into practice. These bricks were made of red clay, fired on all sides to above 600 °C, and used as flooring for houses. By the
Qujialing period (3300 BC), fired bricks were being used to pave roads and as building foundations at Chengtoushan. According to Lukas Nickel, the use of ceramic pieces for protecting and decorating floors and walls dates back at various cultural sites to 3000-2000 BC and perhaps even before, but these elements should be rather qualified as
tiles. For the longest time builders relied on wood, mud and rammed earth, while fired brick and mudbrick played no structural role in architecture. Proper brick construction, for erecting walls and
vaults, finally emerges in the third century BC, when baked bricks of regular shape began to be employed for vaulting underground tombs. Hollow brick tomb chambers rose in popularity as builders were forced to adapt due to a lack of readily available wood or stone. The oldest extant brick building above ground is possibly
Songyue Pagoda, dated to 523 AD. By the end of the third century BC in China, both hollow and small bricks were available for use in building walls and ceilings. Fired bricks were first mass-produced during the construction of the tomb of China's first Emperor,
Qin Shi Huangdi. The floors of the three pits of the
Terracotta Army were paved with an estimated 230,000 bricks, with the majority measuring 28x14x7 cm, following a 4:2:1 ratio. The use of fired bricks in Chinese city walls first appeared in the
Eastern Han dynasty (25 AD-220 AD). Up until the Middle Ages, buildings in Central Asia were typically built with unbaked bricks. It was only starting in the ninth century CE when buildings were entirely constructed using fired bricks. The
Roman legions operated mobile
kilns, and built large brick structures throughout the
Roman Empire, stamping the bricks with the seal of the legion. The Romans used brick for walls, arches, forts, aqueducts, etc. Notable mentions of Roman brick structures are the Herculaneum gate of Pompeii and the
baths of Caracalla. During the
Early Middle Ages the use of bricks in construction became popular in
Northern Europe, after being introduced there from Northwestern Italy. An independent style of brick architecture, known as
brick Gothic (similar to
Gothic architecture) flourished in places that lacked indigenous sources of rocks. Examples of this architectural style can be found in modern-day Denmark, Germany, Poland, and
Kaliningrad (former
East Prussia). of the
Teutonic Order in Poland – the largest brick castle in the world This style evolved into the
Brick Renaissance as the stylistic changes associated with the
Italian Renaissance spread to northern Europe, leading to the adoption of
Renaissance elements into brick building. Identifiable attributes included a low-pitched hipped or flat roof, symmetrical facade, round arch entrances and windows, columns and pilasters, and more. A clear distinction between the two styles only developed at the transition to
Baroque architecture. In
Lübeck, for example, Brick Renaissance is clearly recognisable in buildings equipped with terracotta reliefs by the artist Statius von Düren, who was also active at
Schwerin (
Schwerin Castle) and
Wismar (Fürstenhof). Long-distance
bulk transport of bricks and other construction equipment remained prohibitively expensive until the development of modern transportation infrastructure, with the construction of
canal,
roads, and
railways.
Industrial era in
Mérida, Spain (designed by
Rafael Moneo and built in the 1980s) the coating of hard-fired clay bricks forms a compression-resistant element together with the fill of non-reinforced concrete. Production of bricks increased massively with the onset of the
Industrial Revolution and the rise in factory building in England. For reasons of speed and economy, bricks were increasingly preferred as building material to stone, even in areas where the stone was readily available. It was at this time in
London that bright red brick was chosen for construction to make the buildings more visible in the heavy fog and to help prevent traffic accidents. The transition from the traditional method of production known as hand-moulding to a mechanised form of mass-production slowly took place during the first half of the nineteenth century. The first brick-making machine was
patented by Richard A. Ver Valen of Haverstraw, New York, in 1852. The
Bradley & Craven Ltd 'Stiff-Plastic Brickmaking Machine' was patented in 1853. Bradley & Craven went on to be a dominant manufacturer of brickmaking machinery. Henry Clayton, employed at the Atlas Works in
Middlesex, England, in 1855, patented a brick-making machine that was capable of producing up to 25,000 bricks daily with minimal supervision. His mechanical apparatus soon achieved widespread attention after it was adopted for use by the
South Eastern Railway Company for brick-making at their factory near
Folkestone. At the end of the 19th century, the Hudson River region of
New York State would become the world's largest brick manufacturing region, with 130 brickyards lining the shores of the Hudson River from Mechanicsville to Haverstraw and employing 8,000 people. At its peak, about 1 billion bricks were produced a year, with many being sent to New York City for use in its construction industry. The demand for high office building construction at the turn of the 20th century led to a much greater use of
cast and
wrought iron, and later, steel and
concrete. The use of brick for
skyscraper construction severely limited the size of the building – the
Monadnock Building, built in 1896 in Chicago, required exceptionally thick walls to maintain the structural integrity of its 17 storeys. Following pioneering work in the 1950s at the
Swiss Federal Institute of Technology and the
Building Research Establishment in
Watford, UK, the use of improved masonry for the construction of tall structures up to 18 storeys high was made viable. However, the use of brick has largely remained restricted to small to medium-sized buildings, as steel and concrete remain superior materials for high-rise construction. == Methods of manufacture ==