A column or pillar in architecture
and structural engineering
is a structural element that transmits, through compression
, the weight of the structure above to other structural elements below. In other words, a column is a compression member
. The term ''column'' applies especially to a large round support (the shaft of the column) with a capital
and a base or pedestal
, which is made of stone, or appearing to be so. A small wooden or metal support is typically called a post, and supports with a rectangular or other non-round section are usually called piers
For the purpose of wind
or earthquake engineering
, columns may be designed to resist lateral forces. Other compression members are often termed "columns" because of the similar stress conditions. Columns are frequently used to support beam
s or arch
es on which the upper parts of walls or ceilings rest. In architecture, "column" refers to such a structural element that also has certain proportional and decorative features. A column might also be a decorative element not needed for structural purposes; many columns are engaged
, that is to say form part of a wall. A long sequence of columns joined by an entablature
is known as a colonnade
All significant Iron Age
civilizations of the Near East
made some use of columns.
In ancient Egyptian architecture
as early as 2600 BC, the architect Imhotep
made use of stone columns whose surface was carved to reflect the organic form of bundled reeds, like papyrus
.In later Egyptian architecture faceted cylinders were also common. Their form is thought to derive from archaic reed-built shrines. Carved from stone, the columns were highly decorated with carved and painted hieroglyphs
, texts, ritual imagery and natural motifs. Egyptian columns are famously present in the Great Hypostyle Hall
of Karnak (circa 1224 BC), where 134 columns are lined up in sixteen rows, with some columns reaching heights of 24 metres.
One of the most important type are the papyriform columns. The origin of these columns goes back to the 5th Dynasty
. They are composed of lotus (papyrus) stems which are drawn together into a bundle decorated with bands: the capital, instead of opening out into the shape of a bellflower
, swells out and then narrows again like a flower in bud. The base, which tapers to take the shape of a half-sphere like the stem of the lotus, has a continuously recurring decoration of stipules.
The grammar of ornament (1868) (14587326250).jpg|Illustration of papyriform capitals, in ''The Grammar of Ornament''
Lepsius-Projekt tw 1-2-108.jpg|Illustration of various types of capitals, drawn by the egyptologist Karl Richard Lepsius
Mammisi Philae2.JPG|Columns with Hathoric capitals
The double row of columns with papyrus bundle capitals - The Court of Amonhotep III - Luxor Temple (14075179947).jpg|Papyriform columns of the Luxor Temple
Some of the most elaborate columns in the ancient world were those of the Persia
ns, especially the massive stone columns erected in Persepolis
. They included double-bull structures in their capitals
. The Hall of Hundred Columns
at Persepolis, measuring 70 × 70 metres, was built by the Achaemenid
king Darius I
(524–486 BC). Many of the ancient Persian column
s are standing, some being more than 30 metres tall. Tall columns with bull's head capitals were used for porticoes and to support the roofs of the hypostylehall, partly inspired by the ancient Egyptian precedent. Since the columns carried timber beams rather than stone, they could be taller, slimmer and more widely spaced than Egyptian ones.
Greek and Roman
used whole tree-trunks, usually turned upside down in order to prevent re-growth, stood on a base set in the stylobate (floor base) and topped by a simple round capital. These were then painted as in the most famous Minoan palace of Knossos
. The Minoans employed columns to create large open-plan spaces, light-wells and as a focal point for religious rituals.
These traditions were continued by the later Mycenaean civilization
, particularly in the megaron or hall at the heart of their palaces. The importance of columns and their reference to palaces and therefore authority is evidenced in their use in heraldic motifs such as the famous lion-gate of Mycenae
where two lions stand each side of a column. Being made of wood these early columns have not survived, but their stone bases have and through these we may see their use and arrangement in these palace buildings.
The Egyptians, Persians and other civilizations mostly used columns for the practical purpose of holding up the roof inside a building, preferring outside walls to be decorated with relief
s or painting, but the Ancient Greeks, followed by the Romans, loved to use them on the outside as well, and the extensive use of columns on the interior and exterior of buildings is one of the most characteristic features of classical architecture, in buildings like the Parthenon
. The Greeks developed the classical orders
of architecture, which are most easily distinguished by the form of the column and its various elements. Their Doric
, and Corinthian
orders were expanded by the Romans to include the Tuscan
Knossos 03.JPG|Minoan columns at the West Bastion of the Palace of Knossos
EB1911 Capital Fig. 5 Early Greek Capital from the Tomb of Agamemnon, Mycenae.jpg|Illustration of the end of a Mycenaean column, from the Tomb of Agamemnon
Fotothek df tg 0001022 Architektur ^ Säule ^ dorische Ordnung ^ Brücke.jpg|Illustration of the Tuscan order
DoricParthenon.jpg|Illustration of the Doric order
Ionic order J.L.Leroy.jpg|Illustration of the Ionic order
Evolution of the Corinthian Capital 138.jpg|Evolution of the Corinthian order
Fotothek df tg 0001039 Architektur ^ Säule ^ komposite Ordnung.jpg|Illustration of the Composite order
Femme en priere entre deux colonnes ioniques - Louvre.jpg|Praying Woman between two ionic columns, 2nd century, marble, in the Louvre
Columns, or at least large structural exterior ones, became much less significant in the architecture of the Middle Ages
. The classical forms were abandoned in both Byzantine
and Romanesque architecture
in favour of more flexible forms, with capitals often using various types of foliage decoration, and in the West scenes with figures carved in relief
During the Romanesque period, builders continued to reuse and imitate ancient Roman columns wherever possible; where new, the emphasis was on elegance and beauty, as illustrated by twisted columns. Often they were decorated with mosaics.
SantApollinare Nuovo Pulpito marmoreo.jpg|Byzantine columns from Basilica of Sant'Apollinare Nuovo (Ravenna, Italy)
Hagia_Sophia_(15468276434).jpg|The capital of a Byzantine column from Hagia Sophia (Istanbul, Turkey)
Igreja de São Tiago, Coimbra. Capiteis y colunelos.jpg|Romanesque columns from the 12th century
Neuwiller StPierre-Paul 117.JPG|Gothic columns of a church from Neuwiller-lès-Saverne (France)
File:Gelnhausen, Marienkirche, Südportal-20160804-007.jpg|Slender Gothic columns at a portal of Marienkirche Gelnhausen (Gelnhausen, Germany)
File:20131204_Istanbul_085.jpg|Column use is common in Ottoman architecture, an example in Topkapı Palace (Istanbul, Turkey)
Renaissance and later styles
was keen to revive the classical vocabulary and styles, and the informed use and variation of the classical orders remained fundamental to the training of architects throughout Baroque
and Neo-classical architecture
Early columns were constructed of stone, some out of a single piece of stone. Monolithic columns are among the heaviest stones used in architecture. Other stone columns are created out of multiple sections of stone, mortared or dry-fit together. In many classical sites, sectioned columns were carved with a centre hole or depression so that they could be pegged together, using stone or metal pins. The design of most classical columns incorporates entasis
(the inclusion of a slight outward curve in the sides) plus a reduction in diameter along the height of the column, so that the top is as little as 83% of the bottom diameter. This reduction mimics the parallax effects which the eye expects to see, and tends to make columns look taller and straighter than they are while entasis adds to that effect.
There are flutes and fillets that run up the shaft of columns. The flute is the part of the column that is indented in with a semi circular shape. The fillet of the column is the part between each of the flutes on the Ionic order columns. The flute width changes on all tapered columns as it goes up the shaft and stays the same on all non tapered columns. This was done to the columns to add visual interest to them. The Ionic and the Corinthian are the only orders that have fillets and flutes. The Doric style has flutes but not fillets. Doric flutes are connected at a sharp point where the fillets are located on Ionic and Corinthian order columns.
Most classical columns arise from a basis, or base, that rests on the stylobate
, or foundation
, except for those of the Doric order
, which usually rest directly on the stylobate. The basis may consist of several elements, beginning with a wide, square slab known as a plinth
. The simplest bases consist of the plinth alone, sometimes separated from the column by a convex circular cushion known as a torus
. More elaborate bases include two toruses, separated by a concave section or channel known as a scotia or trochilus. Scotiae could also occur in pairs, separated by a convex section called an astragal
, or bead, narrower than a torus. Sometimes these sections were accompanied by still narrower convex sections, known as annulet
s or fillets.
[Hewson Clarke and John Dougall, ''The Cabinet of Arts'', T. Kinnersley, London (1817), pp. 271, 272.] ["Architectural Glossary", in ''The Universal Decorator'', Francis Benjamin Thompson, Ed., vol. III (1859).]
At the top of the shaft is a capital
, upon which the roof or other architectural elements rest. In the case of Doric columns, the capital usually consists of a round, tapering cushion, or echinus, supporting a square slab, known as an abax or abacus
. Ionic capitals
feature a pair of volute
s, or scrolls, while Corinthian capitals
are decorated with reliefs in the form of acanthus leaves. Either type of capital could be accompanied by the same moldings as the base.
In the case of free-standing columns, the decorative elements atop the shaft are known as a finial
Modern columns may be constructed out of steel, poured or precast concrete, or brick, left bare or clad in an architectural covering, or veneer. Used to support an arch, an impost
, or pier, is the topmost member of a column. The bottom-most part of the arch, called the springing, rests on the impost.
Equilibrium, instability, and loads
As the axial load on a perfectly straight slender column with elastic material properties is increased in magnitude, this ideal column passes through three states: stable equilibrium, neutral equilibrium, and instability. The straight column under load is in stable equilibrium if a lateral force, applied between the two ends of the column, produces a small lateral deflection which disappears and the column returns to its straight form when the lateral force is removed. If the column load is gradually increased, a condition is reached in which the straight form of equilibrium becomes so-called neutral equilibrium, and a small lateral force will produce a deflection that does not disappear and the column remains in this slightly bent form when the lateral force is removed. The load at which neutral equilibrium of a column is reached is called the critical or buckling
load. The state of instability is reached when a slight increase of the column load causes uncontrollably growing lateral deflections leading to complete collapse.
For an axially loaded straight column with any end support conditions, the equation of static equilibrium, in the form of a differential equation, can be solved for the deflected shape and critical load of the column. With hinged, fixed or free end support conditions the deflected shape in neutral equilibrium of an initially straight column with uniform cross section throughout its length always follows a partial or composite sinusoidal curve shape, and the critical load is given by
where ''E'' = elastic modulus
of the material, ''Imin
'' = the minimal moment of inertia of the cross section, and ''L'' = actual length of the column between its two end supports. A variant of (1) is given by
where ''r'' = radius
of gyration of column cross-section which is equal to the square root of (I/A), ''K'' = ratio of the longest half sine
wave to the actual column length, ''E''''t''
= tangent modulus at the stress ''F''cr
, and ''KL'' = effective length (length of an equivalent hinged-hinged column). From Equation (2) it can be noted that the buckling strength of a column is inversely proportional to the square of its length.
When the critical stress, ''F''cr
/''A'', where ''A'' = cross-sectional area of the column), is greater than the proportional limit of the material, the column is experiencing inelastic buckling. Since at this stress the slope of the material's stress-strain curve, ''E''''t''
(called the tangent modulus
), is smaller than that below the proportional limit, the critical load at inelastic buckling is reduced. More complex formulas and procedures apply for such cases, but in its simplest form the critical buckling load formula is given as Equation (3),
A column with a cross section that lacks symmetry may suffer torsional buckling (sudden twisting) before, or in combination with, lateral buckling. The presence of the twisting deformations renders both theoretical analyses and practical designs rather complex.
Eccentricity of the load, or imperfections such as initial crookedness, decreases column strength. If the axial load on the column is not concentric, that is, its line of action is not precisely coincident with the centroidal axis of the column, the column is characterized as eccentrically loaded. The eccentricity of the load, or an initial curvature, subjects the column to immediate bending. The increased stresses due to the combined axial-plus-flexural stresses result in a reduced load-carrying ability.
Column elements are considered to be massive if their smallest side dimension is equal to or more than 400 mm. Massive columns have the ability to increase in carrying strength over long time periods (even during periods of heavy load). Taking into account the fact, that possible structural loads may increase over time as well (and also the threat of progressive failure), massive columns have an advantage compared to non-massive ones.
When a column is too long to be built or transported in one piece, it has to be extended or spliced at the construction site. A reinforced concrete column
is extended by having the steel reinforcing bars protrude a few inches or feet above the top of the concrete, then placing the next level of reinforcing bars to overlap, and pouring the concrete of the next level. A steel column is extended by welding or bolting splice plates on the flanges and webs or walls of the columns to provide a few inches or feet of load transfer from the upper to the lower column section. A timber column is usually extended by the use of a steel tube or wrapped-around sheet-metal plate bolted onto the two connecting timber sections.
A column that carries the load down to a foundation must have means to transfer the load without overstressing the foundation material. Reinforced concrete and masonry columns are generally built directly on top of concrete foundations. When seated on a concrete foundation, a steel column must have a base plate to spread the load over a larger area, and thereby reduce the bearing pressure. The base plate is a thick, rectangular steel plate usually welded to the bottom end of the column.
, relying on the writings (now lost) of Greek
authors, tells us that the ancient Greeks
believed that their Doric order developed from techniques for building in wood. The earlier smoothed tree-trunk was replaced by a stone cylinder.
The Doric order
is the oldest and simplest of the classical orders. It is composed of a vertical cylinder
that is wider at the bottom. It generally has neither a base nor a detailed capital
. It is instead often topped with an inverted frustum
of a shallow cone or a cylindrical band of carvings. It is often referred to as the masculine order because it is represented in the bottom level of the Colosseum
and the Parthenon
, and was therefore considered to be able to hold more weight. The height-to-thickness ratio is about 8:1. The shaft of a Doric Column is almost always fluted
The Greek Doric, developed in the western Dorian region of Greece, is the heaviest and most massive of the orders. It rises from the stylobate
without any base; it is from four to six times as tall as its diameter; it has twenty broad flutes; the capital consists simply of a banded necking swelling out into a smooth echinus, which carries a flat square abacus; the Doric entablature is also the heaviest, being about one-fourth the height column. The Greek Doric order was not used after c. 100 B.C. until its “rediscovery” in the mid-eighteenth century.
The Tuscan order
, also known as Roman Doric, is also a simple design, the base and capital both being series of cylindrical disks of alternating diameter. The shaft is almost never fluted. The proportions vary, but are generally similar to Doric columns. Height to width ratio is about 7:1.
column is considerably more complex than the Doric or Tuscan. It usually has a base and the shaft is often fluted (it has grooves carved up its length). The capital features a volute
, an ornament shaped like a scroll
, at the four corners. The height-to-thickness ratio is around 9:1. Due to the more refined proportions and scroll capitals, the Ionic column is sometimes associated with academic buildings. Ionic style columns were used on the second level of the Colosseum.
The Corinthian order is named for the Greek city-state
, to which it was connected in the period. However, according to the architectural historian Vitruvius
, the column was created by the sculptor Callimachus
, probably an Athenian
, who drew acanthus
leaves growing around a votive basket. In fact, the oldest known Corinthian capital was found in Bassae
, dated at 427 BC. It is sometimes called the feminine order because it is on the top level of the Colosseum and holding up the least weight, and also has the slenderest ratio of thickness to height. Height to width ratio is about 10:1.
The Composite order
draws its name from the capital being a composite of the Ionic and Corinthian capitals. The acanthus of the Corinthian column already has a scroll-like element, so the distinction is sometimes subtle. Generally the Composite is similar to the Corinthian in proportion and employment, often in the upper tiers of colonnade
s. Height to width ratio is about 11:1 or 12:1.
A Solomonic column
, sometimes called "barley sugar
", begins on a base and ends in a capital, which may be of any order, but the shaft twists in a tight spiral, producing a dramatic, serpentine effect of movement. Solomonic columns were developed in the ancient world, but remained rare there. A famous marble set, probably 2nd century, was brought to Old St. Peter's Basilica
by Constantine I
, and placed round the saint's shrine, and was thus familiar throughout the Middle Ages, by which time they were thought to have been removed from the Temple of Jerusalem
[J. Ward-Perkins, "The shrine of St. Peter's and its twelve spiral columns" ''Journal of Roman Studies'' 42 (1952) p 21ff.]
The style was used in bronze by Bernini
for his spectacular St. Peter's baldachin
, actually a ciborium
(which displaced Constantine's columns), and thereafter became very popular with Baroque
church architects, above all in Latin America
, where they were very often used, especially on a small scale, as they are easy to produce in wood by turning on a lathe
(hence also the style's popularity for spindles
on furniture and stairs).
A Caryatid is a sculpted female figure serving as an architectural support taking the place of a column
or a pillar supporting an entablature
on her head. The Greek
term ''karyatides'' literally means "maidens of Karyai
", an ancient town of Peloponnese
In architecture, an engaged column is a column embedded in a wall and partly projecting from the surface of the wall, sometimes defined as semi or three-quarter detached. Engaged columns are rarely found in classical Greek architecture, and then only in exceptional cases, but in Roman architecture they exist in abundance, most commonly embedded in the cella
walls of pseudoperipteral
s are monumental graves, which typically feature a single, prominent pillar or column, often made of stone. A number of world cultures incorporated pillars into tomb structures. In the ancient Greek
colony of Lycia
, one of these edifices is located at the tomb of Xanthos
. In the town of Hannassa
in southern Somalia
, ruins of houses with archways and courtyard
s have also been found along with other pillar tombs, including a rare octagonal tomb.
File:Decorated pillars. Mosque. Kashgar.jpg|Decorated pillars. Mosque. Kashgar
File:Great Hypostyle Hall.jpg|The Great Hypostyle Hall from Karnak (Egypt)
File:Columns of the Temple of Apollo at Delphi, Greece.jpeg|Columns found at the Temple of Apollo in Delphi
File:Rocaille detail in a column - St. Peter - Mainz - Germany 2017.jpg|Rococo detail of a column from St. Peter's Church (Mainz, Germany)
File:Solomonic columns at St Peters Vatican (cropped).jpg|At right, two of the Solomonic columns brought to Rome by Constantine, in their present-day location on a pier in St. Peter's Basilica (Rome). In the foreground at left is part of Bernini's Baldachin, inspired by the original columns.
File:Western colonnade at courtyard, UVa 2004.jpg|Tuscan columns can be seen at the University of Virginia
File:San prospero colonne reggio emilia.jpg|Church of San Prospero (Reggio Emilia, Italy)
File:Construction of Sigismund Column.JPG|Construction of Sigismund's Column in Warsaw, detail of the 1646 engraving.
File:Columns in the inner court of the Bel Temple Palmyra Syria.JPG|These are composed of stacked segments and finished in the Corinthian style, at the Temple of Bel (Syria)
File:Bankstownreservoir.jpg|The pillars of Bankstown Reservoir (Sydney, Australia)
File:MosqueeKairouan 6bis.jpg|Reused Roman columns and capitals in the Great Mosque of Kairouan
File:France-002353 - Square House (15866951852).jpg|Engaged columns embedded in the side walls of the cella of the Maison Carrée in Nîmes (France)
* Marian and Holy Trinity columns
* Spur (architecture)
Chisholm, Hugh, ed. (1911). "Engaged Column". Encyclopædia Britannica. 9 (11th ed.). Cambridge University Press. pp. 404–405.
Stierlin, Henri The Roman Empire: From the Etruscans to the Decline of the Roman Empire, TASCHEN, 2002
Alderman, Liz (7 July 2014). "Acropolis Maidens Glow Anew". The New York Times. Retrieved 9 July 2014.
Stokstad, Marilyn; Cothren, Michael (2014). Art History (Volume 1 ed.). New Jersey: Pearson Education, Inc. p. 110.