Arch
An arch is a vertical curved structure that spans an elevated space and may or may not support the weight above it,[1] or in case of a horizontal arch like an arch dam, the hydrostatic pressure against it.
Arches may be synonymous with vaults, but a vault may be distinguished as a continuous arch[2] forming a roof. Arches appeared as early as the 2nd millennium BC in Mesopotamian brick architecture,[3] and their systematic use started with the ancient Romans, who were the first to apply the technique to a wide range of structures.
Basic concepts[]
An arch is a pure compression form.[4][5][6][7] It can span a large area by resolving forces into compressive stresses, and thereby eliminating tensile stresses. This is sometimes denominated "arch action".[8] As the forces in the arch are transferred to its base, the arch pushes outward at its base, denominated "thrust". As the rise, i. e. height, of the arch decreases the outward thrust increases.[9] In order to preserve arch action and prevent collapse of the arch, the thrust must be restrained, either by internal ties or external bracing, such as abutments.[10]
Fixed versus hinged arches[]
The most common kinds of true arch are the fixed arch, the two-hinged arch, and the three-hinged arch.[11]
The fixed arch is most often used in reinforced concrete bridges and tunnels, which have short spans. Because it is subject to additional internal stress from thermal expansion and contraction, this kind of arch is considered statically indeterminate.[10]
The two-hinged arch is most often used to bridge long spans.[10] This kind of arch has pinned connections at its base. Unlike that of the fixed arch, the pinned base can rotate,[12] thus allowing the structure to move freely and compensate for the thermal expansion and contraction that changes in outdoor temperature cause. However, this can result in additional stresses, and therefore the two-hinged arch is also statically indeterminate, although not as much as the fixed arch.[10]
The three-hinged arch is not only hinged at its base, like the two-hinged arch, yet also at its apex. The additional apical connection allows the three-hinged arch to move in two opposite directions and compensate for any expansion and contraction. This kind of arch is thus not subject to additional stress from thermal change. Unlike the other two kinds of arch, the three-hinged arch is therefore statically determinate.[11] It is most often used for spans of medial length, such as those of roofs of large buildings. Another advantage of the three-hinged arch is that the pinned bases are more easily developed than fixed ones, which allows shallow, bearing-type foundations in spans of medial length. In the three-hinged arch "thermal expansion and contraction of the arch will cause vertical movements at the peak pin joint but will have no appreciable effect on the bases," which further simplifies foundational design.[10]
Forms[]
The many forms of arch are classified into three categories: circular, pointed, and parabolic. Arches can also be configured to produce vaults and arcades.[10]
Rounded, i. e. semicircular, arches were commonly used for ancient arches that were constructed of heavy masonry.[13] Ancient Roman builders relied heavily on the rounded arch to span great lengths. Several rounded arches that are constructed in-line and end-to-end in a series form an arcade, e.g. in Roman aqueducts.[14]
Pointed arches were most often used in Gothic architecture.[15] The advantage of a pointed arch, rather than a circular one, is that the arch action produces less horizontal thrust at the base. This innovation allowed for taller and more closely spaced openings, which are typical of Gothic architecture.[16][17]
Vaults are essentially "adjacent arches [that] are assembled side by side." If vaults intersect, their intersections produce complex forms. The forms, along with the "strongly expressed ribs at the vault intersections, were dominant architectural features of Gothic cathedrals."[13]
The parabolic arch employs the principle that when weight is uniformly applied to an arch, the internal compression resulting from that weight will follow a parabolic profile. Of all forms of arch, the parabolic arch produces the most thrust at the base yet can span the greatest distances. It is commonly used in bridges, where long spans are needed.[13]
The catenary arch has a different shape from the parabolic arch. Being the shape of the curve that a loose span of chain or rope traces, the catenary is the structurally ideal shape for a freestanding arch of constant thickness.
Forms of arch displayed chronologically, roughly in chronological order of development:
Triangular arch
Round or semicircular arch
Segmental arch (less than a semicircle)
Unequal round or rampant arch
Lancet arch
Equilateral arch
Shouldered flat arch (see also jack arch)
Trefoil or three-foiled cusped arch
Three-centered arch
Elliptical arch
Inflexed arch
Ogee arch
Reverse ogee arch
Four-centred or Tudor arch
History[]
Bronze Age: ancient Near East[]
True arches, as opposed to corbel arches, were known by a number of civilizations in the ancient Near East including the Levant[contradictory], but their use was infrequent and mostly confined to underground structures, such as drains where the problem of lateral thrust is greatly diminished.[18] An example of the latter would be the Nippur arch, built before 3800 BC,[19] and dated by H. V. Hilprecht (1859–1925) to even before 4000 BC.[20] Rare exceptions are an arched mudbrick home doorway dated to circa 2000 BC from Tell Taya in Iraq[21] and two Bronze Age arched Canaanite city gates, one at Ashkelon (dated to c. 1850 BC),[22] and one at Tel Dan (dated to c. 1750 BC), both in modern-day Israel.[23][24] An Elamite tomb dated 1500 BC from Haft Teppe contains a parabolic vault which is considered one of the earliest evidences of arches in Iran.
Classical Persia and Greece[]
In ancient Persia, the Achaemenid Empire (550 BC–330 BC) built small barrel vaults (essentially a series of arches built together to form a hall) known as iwan, which became massive, monumental structures during the later Parthian Empire (247 BC–AD 224).[25][26][27] This architectural tradition was continued by the Sasanian Empire (224–651), which built the Taq Kasra at Ctesiphon in the 6th century AD, the largest free-standing vault until modern times.[28]
An early European example of a voussoir arch appears in the 4th century BC Greek Rhodes Footbridge.[29]
Ancient Rome[]
The ancient Romans learned the arch from the Etruscans, refined it and were the first builders in Europe to tap its full potential for above ground buildings:
The Romans were the first builders in Europe, perhaps the first in the world, to fully appreciate the advantages of the arch, the vault and the dome.[30]
Throughout the Roman empire, their engineers erected arch structures such as bridges, aqueducts, and gates. They also introduced the triumphal arch as a military monument. Vaults began to be used for roofing large interior spaces such as halls and temples, a function that was also assumed by domed structures from the 1st century BC onwards.
The segmental arch was first built by the Romans who realized that an arch in a bridge did not have to be a semicircle,[31][32] such as in Alconétar Bridge or Ponte San Lorenzo. They were also routinely used in house construction, as in Ostia Antica (see picture).
Ancient China[]
In ancient China, most architecture was wooden, including the few known arch bridges from literature and one artistic depiction in stone-carved relief.[33][34][35] Therefore, the only surviving examples of architecture from the Han Dynasty (202 BC – 220 AD) are rammed earth defensive walls and towers, ceramic roof tiles from no longer existent wooden buildings,[36][37][38] stone gate towers,[39][40] and underground brick tombs that, although featuring vaults, domes, and archways, were built with the support of the earth and were not free-standing.[41][42]
Roman and Chinese bridges in comparison[]
China's oldest surviving stone arch bridge is the Anji Bridge, built between 595 AD and 605 AD during the Sui Dynasty; it is the oldest open-spandrel segmental arch bridge in stone.[43][44]
However, the ancient Romans had virtually all of these components beforehand; for example, Trajan's Bridge that was built between 103 AD and 105 AD, had open spandrels built in wood on stone pillars.[45]
Gothic Europe[]
The first example of an early Gothic arch in Europe is in Sicily in the Greek fortifications of Gela. The semicircular arch was followed in Europe by the pointed Gothic arch or ogive, whose centreline more closely follows the forces of compression and which is therefore stronger. The semicircular arch can be flattened to make an elliptical arch, as in the Ponte Santa Trinita. Parabolic arches were introduced in construction by the Spanish architect Antoni Gaudí, who admired the structural system of the Gothic style, but for the buttresses, which he termed "architectural crutches". The first examples of the pointed arch in the European architecture are in Sicily and date back to the Arab-Norman period.
Horseshoe arch: Aksum and Syria[]
The horseshoe arch is based on the semicircular arch, but its lower ends are extended further round the circle until they start to converge. The first known built horseshoe arches are from the Kingdom of Aksum in modern-day Ethiopia and Eritrea, dating from ca. 3rd–4th century. This is around the same time as the earliest contemporary examples in Roman Syria, suggesting either an Aksumite or Syrian origin for the type.[46]
India[]
Vaulted roof of an early Harappan burial chamber has been noted from Rakhigarhi.[47] S.R Rao reports vaulted roof of a small chamber in a house from Lothal.[48] Barrel vaults were also used in the Late Harappan Cemetery H culture dated 1900 BC-1300 BC which formed the roof of the metal working furnace, the discovery was made by Vats in 1940 during excavation at Harappa.[49][50][51]
In India, Bhitargaon temple (450 AD) and Mahabodhi temple (7th century AD) built in by Gupta Dynasty are the earliest surviving examples of the use of voussoir arch vault system in India.[52] The earlier uses semicircular arch, while the later contains examples of both gothic style pointed arch and semicircular arches. Although introduced in the 5th century, arches didn't gain prominence in the Indian architecture until 12th century after Islamic conquest. The Gupta era arch vault system was later used extensively in Burmese Buddhist temples in Pyu and Bagan in 11th and 12th centuries.[53]
Corbel arch: pre-Columbian Mexico[]
This article does not deal with a different architectural element, the corbel arch. However, it is worthwhile mentioning that corbel arches were found in other parts of ancient Asia, Africa, Europe, and the Americas. In 2010, a robot discovered a long arch-roofed passageway underneath the Pyramid of Quetzalcoatl, which stands in the ancient city of Teotihuacan north of Mexico City, dated to around 200 AD.[54]
Construction[]
Since it is a pure compression form, the arch is useful because many building materials, including stone and unreinforced concrete, can resist compression, but are weak when tensile stress is applied to them (ref: similar to the AL-Karparo [8:04]).[55]
An arch is held in place by the weight of all of its members, making construction problematic. One answer is to build a frame (historically, of wood) which exactly follows the form of the underside of the arch. This is known as a centre or centring. Voussoirs are laid on it until the arch is complete and self-supporting. For an arch higher than head height, scaffolding would be required, so it could be combined with the arch support. Arches may fall when the frame is removed if design or construction has been faulty. The first attempt at the A85 bridge at Dalmally, Scotland suffered this fate, in the 1940s.[citation needed] The interior and lower line or curve of an arch is known as the intrados.
Old arches sometimes need reinforcement due to decay of the keystones, forming what is known as bald arch.
In reinforced concrete construction, the principle of the arch is used so as to benefit from the concrete's strength in resisting compressive stress. Where any other form of stress is raised, such as tensile or torsional stress, it has to be resisted by carefully placed reinforcement rods or fibres.[56]
Other types[]
A depressed arch is one that appears "squashed" down at the top from the full arched shape. In pointed-arch styles, where there is a central point at the top of the arch, it may be a four-centred arch or Tudor arch.
A blind arch is an arch infilled with solid construction so it cannot function as a window, door, or passageway. These are common as decorative treatments of a wall surface in many architectural styles, especially Romanesque architecture.
A special form of the arch is the triumphal arch, usually built to celebrate a victory in war. A famous example is the Arc de Triomphe in Paris, France.
Rock formations may form natural arches through erosion, rather than being carved or constructed.[57] Structures such as this can be found in Arches National Park. Some rock balance sculptures are in the form of an arch.
The arches of the foot support the weight of the human body.[58]
Depressed Tudor arch on Layer Marney Tower in Essex, England
Washington Square Arch, a triumphal arch in Greenwich Village, Manhattan, New York City
Delicate Arch, a natural arch in Arches National Park near Moab, Utah
A rock balance sculpture in the form of an arch
Medial longitudinal arch of the human foot (Gray's Anatomy)
Gallery[]
Restored Canaanite city gate of Ashkelon, Ashkelon, Israel (2014)
Reconstructed Ishtar Gate of Babylon in the Pergamon Museum, Berlin (2014)
Taq Kasra (Archway of Ctesiphon), Salman Pak, Iraq (1864)
Arch of Augustus, Rimini, Emilia-Romagna, Italy (2015)
Arch of Gallienus, Rome (2006)
Arch of Hadrian, Athens, Greece (2013)
Arch of Constantine, Rome, commemorating a victory by Constantine I in 312 AD (2007)
The Arc de Triomphe, Paris; a 19th-century triumphal arch modelled on the classical Roman design (1998)
Soldiers' and Sailors' Arch in the Grand Army Plaza, Brooklyn, New York City (2007)
Gateway Arch in St. Louis, Missouri; a sculpture based on a catenary arch (2011)
Pont Flavien over the River Touloubre in Saint-Chamas, Bouches-du-Rhône, France (2008)
Old stone bridge in Kerava, Finland (2011)
Bridge of , Suncheon, South Jeolla Province, South Korea (1979)
Grosvenor Bridge over the River Dee in Chester, Cheshire, England, UK (2007)
Union Arch Bridge carrying the Washington Aqueduct and MacArthur Boulevard (formerly named Conduit Road) in Cabin John, Montgomery County, Maryland (2008)
Anji Bridge over the Xiaohe River, Hebei Province, China (2007)
The dry stone bridge, so called Porta Rosa (4th century BC), in Elea, Province of Salerno, Campania, Italy (2005)
Bridge of Sighs, Venice, Italy (2001)
Pont du Gard, a Roman aqueduct in Vers-Pont-du-Gard, Gard, France (2014)
Bridge in Český Krumlov, Czech Republic (2004)
Rialto Bridge over the Grand Canal in Venice, Italy (2011)
Pont de Bercy over the River Seine, Paris, carrying the Paris Métro on its upper deck and a boulevard extension on its lower deck (2006)
Arlington Memorial Bridge over the Potomac River in Washington, D.C. (2007)
Francis Scott Key Bridge over the Potomac River in Washington, D.C. (2006)
Woodrow Wilson Memorial Bridge carrying Interstate 95 (I-95) and the Capital Beltway over the Potomac River between Alexandria, Virginia and Oxon Hill, Maryland (2007)
Arrábida Bridge over the Douro River connecting Porto, and Vila Nova de Gaia, in the Norte Region, Portugal (2011)
Rainbow Bridge over the Niagara River connecting Niagara Falls, New York and Niagara Falls, Ontario, Canada (2012)
Tyne Bridge over the River Tyne, Newcastle upon Tyne, England, UK (2004)
Hell Gate Bridge over the East River, New York City
Sydney Harbour Bridge, Sydney, New South Wales, Australia (2010)
Ludendorff Bridge over the Rhine River, Remagen, Germany, showing damage before collapse during the Battle of Remagen in World War II (1945)
Lianxiang bridge over the Xiang River, Xiangtan, Hunan Province, China (2007)
Zhivopisny Bridge over the Moskva River, Moscow, Russia (2009)
Margaret Hunt Hill Bridge over the Trinity River in Dallas, Texas (2012)
Juscelino Kubitschek Bridge crossing Paranoá Lake, Brasília, Brazil (2007)
Gateshead Millennium Bridge over the River Tyne, Newcastle upon Tyne, England, UK (2005)
Eiffel Tower, Paris (2009)
Arch supporting the Eiffel Tower, Paris (2015)
The second Wembley Stadium in London, built in 2007 (2007)
The first San Mamés Stadium, in Bilbao, arch built in 1953, demolished 2013 (2013)
St Pancras railway station, London (2011)
Train shed in St Pancras railway station, London (2010)
Train shed in Victoria Station, London (2006)
Lucerne railway station, Switzerland (2010)
Central railway station, Frankfurt, Germany (2008)
Train shed in Central railway station, Frankfurt, Germany (2005)
Arches in Main Concourse, Grand Central Terminal, Manhattan, New York City (2014)
Interior arches in Washington Union Station, Washington, D.C. (2006)
Arches in Great Hall, Chicago Union Station, Chicago, Illinois (2010)
Haus der Kulturen der Welt, Berlin, Germany (2011)
The Colosseum in Rome (2013)
Stonework arches seen in a ruined stonework building – Burg Lippspringe, Germany (2005)
Arches in the Casa-Museo del Libertador Simón Bolívar in Havana, Cuba (2006)[59]
Arches in dining hall at Kings College, University of Cambridge, Cambridge, England (2007)
Arches inside Annenberg Hall, Memorial Hall, Harvard University, Cambridge, Massachusetts (2016)
Healy Hall, Georgetown University, Washington, D.C. (2009)
Arches in throne room of Neuschwanstein Castle, Bavaria, Germany (1886 photochrom print)
Arches in the Court of the Lions, Alhambra, Granada, Andalusia, Spain (2012)
External arches in the Court of the Myrtles, Alhambra, Granada, Andalusia, Spain (2009)
Arches inside the North Gallery, Court of the Myrtles, Alhambra, Granada, Andalusia, Spain (2010)
Arches in the nave of the church in monastery of Alcobaça, Portugal (2008)
North facade of Chartres Cathedral, Chartres, France (2008)
Arches in choir of Chartres Cathedral, Chartres, France (2013)
Arches in nave of Westminster Abbey, City of Westminster, London (2006)
Arches inside the Washington National Cathedral, Washington, D.C. (2005)
Interior arches in St. Peter's Basilica, Vatican City (2009)
Amir Chakhmaq Complex, Yazd, Iran (2014)
Hagia Sophia in Istanbul, Turkey (2013)
Arches inside the Hagia Sophia in Istanbul, Turkey (1983)
Arches inside the western upper gallery, Hagia Sophia, Istanbul, Turkey (2007)
Interior arches in the Masjid al-Haram, Mecca, Saudi Arabia (2008)
Roof of Masjid al-Haram, Mecca, Saudi Arabia (2008)
Dome of the Rock, Old City of Jerusalem (2010)
Arches inside the Dome of the Rock, Old City of Jerusalem (2014)
Arches in the Shahi Mosque, Chitral, Khyber Pakhtunkhwa province, Pakistan (2016)
Taj Mahal in Agra, Uttar Pradesh, India (2009)
The Great Gate (Darwaza-i-rauza): Entrance to grounds of Taj Mahal, Agra, Uttar Pradesh, India (2004)
Arches inside the Taj Majal, Agra, Uttar Pradesh, India
Arches in Main Reading Room, Thomas Jefferson Building, Library of Congress, Washington, D.C. (2009)
Arches in Great Hall, Thomas Jefferson Building, Library of Congress, Washington, D.C. (2007)
Art Deco arches on Chrysler Building, Manhattan, New York City (2005)
New York Public Library Main Branch, Manhattan, New York City (2016)
Arches inside the entrance of New York Public Library Main Branch, Manhattan, New York City (2012)
Arches in Great Hall, Metropolitan Museum of Art, Manhattan, New York City (2012)
Arches in Sculpture Gallery, West Building, National Gallery of Art, Washington, D.C. (2007)
Arches inside the Legion of Honor, Lincoln Park, San Francisco, California (2010)
Arches near the Jordan Staircase, Winter Palace, Hermitage Museum, St. Petersburg, Russia (2015)
Arches in Pavilion Hall, Small Hermitage, Hermitage Museum, St. Petersburg, Russia (2015)
Arches in Salle du Manège, Louvre Palace, Paris (2007)
Arches in Galerie des Batailles, Palace of Versailles, Versailles, Yvelines, France (2013)
Arches in Hall of Mirrors, Palace of Versailles, Versailles, Yvelines, France (2011)
Arches in Westminster Hall, Palace of Westminster, City of Westminster, London (2011)
Arches in St. Stevens Hall, Palace of Westminster, City of Westminster, London (2007)
Horseshoe arch inside the Aljafería Palace, Zaragoza, Spain (2004)
Multifoil arches inside the Aljafería Palace, Zaragoza, Spain (2004)
Catenary arches inside the Casa Milà in Barcelona, Spain by Antoni Gaudí (2010}
Rajasthani style arches inside the 16th-century City Palace, Udaipur, India (2013)
Main façade of the Itamaraty Palace in Brasília, Brazil, decorated with many arches (2005)
Arches inside the National Building Museum (formerly Pension Building), Washington, D.C. (2007)
Front entrance of the Old Post Office Building in Washington, D.C. (2006)
Arches inside the Old Post Office Building in Washington, D.C. (2009)
Bankstown Reservoir, Bankstown, Sydney, New South Wales, Australia (2018)
Arches in Merzouga, Morocco (2011)
Crypt of the Popes in the Catacomb of Callixtus, Rome (2007)
Chinese Eastern Han Dynasty (25–220 AD) tomb chamber, Luoyang (2008)
Entrance to Washington family tomb at Mount Vernon, Fairfax County, Virginia (2014)
Natural Bridge in Rockbridge County, Virginia (2014)
Jiangzhou Natural Bridge, Guangxi Zhuang Autonomous Region, China (2012)
Landscape Arch, Arches National Park, Utah (2016)
Double O Arch, Arches National Park, Utah (2007)
Aloba Arch, Ennedi-Est Region, Chad (2015)
Shipton's Arch, Xinjiang Uygur Autonomous Region, China (2011)
Darwin's Arch, Galápagos Archipelago, Pacific Ocean (2006)
Shah Abbas Arch Dam (Tagh E Shah Abbas), Tabas County, South Khorasan Province, Iran (2011)
Hoover Dam in the Black Canyon of the Colorado River, Clark County, Nevada and Mohave County, Arizona (2017)
El Atazar Dam on the Lozoya River near Madrid, Spain (2014)
See also[]
References[]
- ^ "arch, n. 2" Oxford English Dictionary 2nd ed. 2009.
- ^ "vault, n. 2." The Century Dictionary and Cyclopedia Dwight Whitney, ed.. vol. 10. New York. 1911. 6707. Print.
- ^ "Ancient Mesopotamia: Architecture". The Oriental Institute of the University of Chicago. Archived from the original on 16 May 2012. Retrieved 16 May 2012.
- ^ Chilton, John; Isler, Heinz (2000). The Engineer's Contribution to Contemporary Architecture. Thomas Telford. p. 32. ISBN 9780727728784.
- ^ "Arches and Domes". oer2go.org. Retrieved 29 July 2019.
- ^ Adriaenssens, Sigrid; Block, Philippe; Veenendaal, Diederik; Williams, Chris (21 March 2014). Shell Structures for Architecture: Form Finding and Optimization. Routledge. p. 8. ISBN 9781317909385.
- ^ Sandaker, Bjørn N.; Eggen, Arne P.; Cruvellier, Mark R. (11 January 2013). The Structural Basis of Architecture. Routledge. p. 326. ISBN 9781135666873.
- ^ Vaidyanathan, R (2004). Structural Analysis, Volume 2. US: Laxmi Publications. p. 127. ISBN 978-81-7008-584-3 – via Google Books.
- ^ Ambrose, James (2012). Building Structures. Hoboken, NJ: John Wiley & Sons, Inc. p. 30. ISBN 9780470542606.
- ^ Jump up to: a b c d e f Ambrose, James (2012). Building Structures. Hoboken, NJ: John Wiley & Sons, Inc. p. 31. ISBN 978-0-470-54260-6.
- ^ Jump up to: a b Reynolds, Charles E (2008). Reynolds's Reinforced Concrete Designer's Handbook. New York: Psychology Press. p. 41. ISBN 978-0-419-25820-9 – via Google Books.
- ^ Luebkeman, Chris H. "Support and Connection Types". MIT.edu Architectonics: The Science of Architecture. MIT.edu. Archived from the original on 28 October 2012. Retrieved 3 February 2013.
- ^ Jump up to: a b c Ambrose, James (2012). Building Structures. Hoboken, NJ: John Wiley & Sons, Inc. p. 32. ISBN 978-0-470-54260-6.
- ^ Oleson, John (2008). The Oxford Handbook of Engineering and Technology in the Classical World. US: Oxford University Press. p. 299. ISBN 978-0-19-518731-1.
- ^ Crossley, Paul (2000). Gothic Architecture. New Haven, CT: Yale University Press. p. 58. ISBN 978-0-300-08799-4 – via Google Books.
- ^ Hadrovic, Ahmet (2009). Structural Systems in Architecture. On Demand Publishing. p. 289. ISBN 978-1-4392-5944-3.
- ^ MHHE. "Structural Systems in Architecture". MHHE.com. Archived from the original on 13 March 2013. Retrieved 3 February 2013.
- ^ Rasch 1985, p. 117
- ^ John P. Peters, University of Pennsylvania Excavations at Nippur. II. The Nippur Arch, The American Journal of Archaeology and of the History of the Fine Arts, vol. 10, no. 3, pp. 352–368, (Jul. – Sep., 1895)
- ^ New Schaff-Herzog Encyclopedia of Religious Knowledge, Vol. I: Babylonia: V. The People, Language, and Culture.: 7. The Civilization. Retrieved 9 April 2020.
- ^ Reade, J.E. (1 January 1968). "Tell Taya (1967): Summary Report". Iraq. 30 (2): 234–264. doi:10.2307/4199854. JSTOR 4199854.
- ^ Lefkovits, Etgar (8 April 2008). "Oldest arched gate in the world restored". The Jerusalem Post. Jerusalem. Archived from the original on 14 August 2013. Retrieved 21 January 2018.
- ^ Israel Finkelstein; Amihay Mazar (2007). Brian B. Schmidt (ed.). The Quest for the Historical Israel: Debating Archaeology and the History of Early Israel. Society of Biblical Literature. pp. 177–. ISBN 978-1-58983-277-0.
- ^ Frances, Rosa: The three-arched middle Bronze Age gate at Tel Dan - A structural investigation of an extraordinary archaeological site, retrieved 9 April 2020.
- ^ Brosius, Maria (2006), The Persians: An Introduction, London & New York: Routledge, p. 128, ISBN 0-415-32089-5.
- ^ Garthwaite, Gene Ralph (2005), The Persians, Oxford & Carlton: Blackwell Publishing, Ltd., p. 84, ISBN 1-55786-860-3.
- ^ Schlumberger, Daniel (1983), "Parthian Art", in Yarshater, Ehsan, Cambridge History of Iran, 3.2, London & New York: Cambridge University Press, p. 1049, ISBN 0-521-20092-X.
- ^ Wright, G. R. H., Ancient building technology vol. 3. Leiden, Netherlands. Koninklijke Brill NV. 2009. p. 237. Print.
- ^ Galliazzo 1995, p. 36; Boyd 1978, p. 91
- ^ Robertson, D.S. (1969). "Chapter Fifteen: Roman Construction. Arches, Vaults, and Domes". Greek and Roman Architecture (2nd ed.). Cambridge, England: Cambridge University Press. p. 231. ISBN 0521061040. OCLC 1149316661. Retrieved 31 December 2020 – via Internet Archive.
- ^ Galliazzo 1995, pp. 429–437
- ^ O'Connor 1993, p. 171
- ^ Needham, Joseph (1986), Science and Civilization in China: Volume 4, Physics and Physical Technology, Part 3, Civil Engineering and Nautics, Taipei: Caves Books, pp. 161–188, ISBN 0-521-07060-0.
- ^ Needham, Joseph (1986), Science and Civilisation in China: Volume 4, Physics and Physical Technology; Part 2, Mechanical Engineering, Taipei: Caves Books, pp. 171–172 ISBN 0-521-05803-1.
- ^ Liu, Xujie (2002), "The Qin and Han dynasties", in Steinhardt, Nancy S., Chinese Architecture, New Haven: Yale University Press, p. 56, ISBN 0-300-09559-7.
- ^ Wang, Zhongshu (1982), Han Civilization, translated by K.C. Chang and Collaborators, New Haven and London: Yale University Press, pp. 1, 30, 39–40, ISBN 0-300-02723-0.
- ^ Chang, Chun-shu (2007), The Rise of the Chinese Empire: Volume II; Frontier, Immigration, & Empire in Han China, 130 B.C. – A.D. 157, Ann Arbor: University of Michigan Press, pp. 91–92, ISBN 0-472-11534-0.
- ^ Morton, William Scott; Lewis, Charlton M. (2005), China: Its History and Culture (Fourth ed.), New York City: McGraw-Hill, p. 56, ISBN 0-07-141279-4.
- ^ Liu, Xujie (2002), "The Qin and Han dynasties", in Steinhardt, Nancy S., Chinese Architecture, New Haven: Yale University Press, p. 55, ISBN 0-300-09559-7.
- ^ Steinhardt, Nancy Shatzman (2005), "Pleasure tower model", in Richard, Naomi Noble, Recarving China's Past: Art, Archaeology, and Architecture of the 'Wu Family Shrines, New Haven and London: Yale University Press and Princeton University Art Museum, pp. 279–280, ISBN 0-300-10797-8.
- ^ Wang, Zhongshu (1982), Han Civilization, translated by K.C. Chang and Collaborators, New Haven and London: Yale University Press, pp. 175–178, ISBN 0-300-02723-0.
- ^ Watson, William (2000), The Arts of China to AD 900, New Haven: Yale University Press, p. 108, ISBN 0-300-08284-3.
- ^ Knapp, Ronald G. (2008). Chinese Bridges: Living Architecture From China's Past. Singapore: Tuttle Publishing. pp. 122–127. ISBN 978-0-8048-3884-9.
- ^ Needham, Joseph. The Shorter Science and Civilisation in China. Cambridge University Press, 1994. ISBN 0-521-29286-7. pp. 145–147.
- ^ This title strictly applies only to the sum of attributes given (O’Connor, Colin: Roman Bridges, Cambridge University Press 1993, ISBN 0-521-39326-4, p. 171): Various Roman stone pillar bridges featured wooden open-spandrel segmental arches as early as the 2nd century CE, among them Trajan's bridge, the longest bridge of the world to have been built for over a thousand years. Also, a dozen or more Roman close-spandrel stone segmental arch bridges are known from the 1st century BC onwards, such as the Ponte San Lorenzo (Padua), Alconétar Bridge and the Makestos Bridge (Turkey), the last having half-open spandrels. The 27 segmental arches of the Bridge at Limyra (300 ce) feature span to rise ratios between 5.3 and 6.5 to 1, making it an earlier example of a stone quarter circle segmental arch bridge. This leaves the Anji bridge the title of "the oldest open-spandrel stone quarter circle segmental arch bridge in the world".
- ^ Stuart Munro-Hay, Aksum: A Civilization of Late Antiquity. Edinburgh: University Press. p. 199
- ^ McIntosh, Jane (2008). The Ancient Indus Valley: New Perspectives. ABC-CLIO. p. 293. ISBN 978-1-57607-907-2.
- ^ Rao, Shikaripur Ranganatha; Rao, Calyampudi Radhakrishna (1973). Lothal and the Indus Civilization. Asia Publishing House. p. 77. ISBN 978-0-210-22278-2.
- ^ Tripathi, Vibha (27 February 2018). "METALS AND METALLURGY IN THE HARAPPAN CIVILIZATION" (PDF). Indian Journal of History of Science: 279–295.
- ^ Kenoyer, J.M; Dales, G. F. Summaries of Five Seasons of Research at Harappa (District Sahiwal, Punjab, Pakistan) 1986-1990. Prehistory Press. pp. 185–262.
- ^ Kenoyer, J.M.; Miller, Heather M..L. Metal Technologies of the Indus Valley Tradition in Pakistan and Western India (PDF). p. 124.
- ^ Chihara, Daigorō (1996). Hindu-Buddhist Architecture in Southeast Asia. Brill. ISBN 978-90-04-10512-6. Archived from the original on 2 July 2018. Retrieved 1 April 2018 – via Google Books.
- ^ Le, Huu Phuoc (2010). Buddhist Architecture. Grafikol. ISBN 978-0-9844043-0-8. Archived from the original on 2 April 2018 – via Google Books.
- ^ Jorge Barrera (12 November 2010). "Teotihuacan ruins explored by a robot, AP report in the Christian Science Monitor, 12 November 2010". Christian Science Monitor. Archived from the original on 11 May 2013. Retrieved 8 June 2013.
- ^ Reid, Esmond (1984). Understanding Buildings: A Multidisciplinary Approach. Cambridge, MA: MIT Press. p. 12. ISBN 978-0-262-68054-7. Archived from the original on 2 June 2016.
- ^ Allen, Edward (2009). Fundamentals of Building Construction. Hoboken, NJ: John Wiley & Sons. p. 529. ISBN 978-0-470-07468-8.
- ^ Davies, David (2014). Cambridge IGCSE Geography Revision Guide Student's Book. Cambridge University Press. ISBN 978-1-107-67482-0 – via Google Books.
- ^ Gray, Henry (1985). "Arches of the Foot". In Clemente, Carmine D. (ed.). Anatomy of the Human Body (30th American ed.). Baltimore, Maryland: Williams & Wilkins. pp. 422–424. ISBN 0-8121-0644-X. LCCN 84005741. OCLC 1028031536. Retrieved 1 August 2021 – via Internet Archive.
- ^ "Casa-Museo Simón Bolívar". Havana Guide. lahabana.com. 22 December 2013. Archived from the original on 2 July 2018. Retrieved 2 July 2018.
Further reading[]
- Boyd, Thomas D. (1978), "The Arch and the Vault in Greek Architecture", American Journal of Archaeology, 82 (1): 83–100 (91), doi:10.2307/503797, JSTOR 503797
- Galliazzo, Vittorio (1995), I ponti romani, Vol. 1, Treviso: Edizioni Canova, ISBN 978-88-85066-66-3
|volume=
has extra text (help) - O'Connor, Colin (1993), Roman Bridges, Cambridge University Press, ISBN 978-0-521-39326-3
- Rasch, Jürgen (1985), "Die Kuppel in der römischen Architektur. Entwicklung, Formgebung, Konstruktion", Architectura, 15, pp. 117–139
- Roth, Leland M (1993). Understanding Architecture: Its Elements History and Meaning. Oxford, UK: Westview Press. pp. 27–28. ISBN 978-0-06-430158-9.
External links[]
Wikiquote has quotations related to: Arch |
Wikimedia Commons has media related to: Arch (category) |
- Physics of Stone Arches by Nova: a model to build an arch without it collapsing
- InteractiveTHRUST: interactive applets, tutorials
- Paper about the three-hinged arch of the Galerie des Machines of 1889 Whitten by Javier Estévez Cimadevila & Isaac López César.
- Arch bridges
- Arches and vaults
- Natural arches
- Bridge components