Fluting in architecture consists of shallow grooves running along a surface.
The term typically refers to the grooves (flutes) running vertically on a column shaft or a pilaster, but need not necessarily be restricted to those two applications. If the hollowing out of material meets in a point, the point (sharp ridge) is called an arris. If the raised ridge between two flutes is blunt, the ridge is a .
Fluting promotes a play of light on a column which helps the column appear more perfectly round than a smooth column. As a strong vertical element it also has the visual effect of minimizing any horizontal joints.
Greek architects viewed rhythm as an important design element. As such, fluting was often used on buildings and temples to increase the sense of rhythm. It may also be incorporated in columns to make them look thinner, lighter, and more elegant.
There is debate as to whether fluting was originally used in imitation of ancient woodworking practices, mimicking adze marks on wooden columns made from tree trunks, or whether it was designed to imitate plant forms. Either way, it was not invented by the Greeks of the classical period who popularized it, but rather passed down or learned from the Mycenaeans or the Egyptians.
Fluted columns styled under the Doric order of architecture have 20 flutes. Ionic, Corinthian, and Composite columns traditionally have 24. Fluting is never used on Tuscan order columns.
Fluting is always applied exclusively to the shaft of the column, and may run either the entire shaft length from the base to the capital, or only on the upper two thirds of the column shaft. The latter application is used to complement the entasis of the column, which begins one third of the way up from the bottom of the shaft.
Fluting might be applied to freestanding, structural columns, as well as engaged columns and decorative pilasters.
If the flutes (hollowed-out grooves) are partly re-filled with moulding, this form of decorated fluting is cabled fluting, ribbed fluting, rudenture, stopped fluting or stop-fluting.
This page is automatically generated and may contain information that is not correct, complete, up-to-date, or relevant to your search query. The same applies to every other page on this website. Please make sure to verify the information with EPFL's official sources.
Explores key figures and movements in modern architecture, including Bauhaus and urban planning projects, highlighting the impact of historical events on architectural design.
Delves into neoclassicist theory by examining Salomon de Brosse's façade of Eglise de Saint Gervais in Paris, showcasing the harmonious blend of Doric, Ionic, and Corinthian orders.
In architecture, entasis is the application of a convex curve to a surface for aesthetic purposes. Its best-known use is in certain orders of Classical columns that curve slightly as their diameter is decreased from the bottom upward. It also may serve an engineering function regarding strength. The word we apply to the design principle is used by the Roman architectural historian Vitruvius, and derives from the Greek word έντείνω (enteino), "to stretch or strain tight".
Moulding (British English), or molding (American English), also coving (in United Kingdom, Australia), is a strip of material with various profiles used to cover transitions between surfaces or for decoration. It is traditionally made from solid milled wood or plaster, but may be of plastic or reformed wood. In classical architecture and sculpture, the moulding is often carved in marble or other stones. In historic architecture, and some expensive modern buildings, it may be formed in place with plaster.
The Composite order is a mixed order, combining the volutes of the Ionic order capital with the acanthus leaves of the Corinthian order. In many versions the composite order volutes are larger, however, and there is generally some ornament placed centrally between the volutes. The column of the composite order is typically ten diameters high, though as with all the orders these details may be adjusted by the architect for particular buildings.
Gas lubricated Herringbone-Grooved Journal Bearings (HGJB) are a promising solution to support high-speed rotors in oil-free turbo-machinery due to their compactness, relatively low losses, no need for lubrication and low wear.
Gas lubricated bearings, how ...
EPFL2019
, ,
This paper presents the results of a theoretical and experimental investigation of the potential of enhanced groove geometries to increase the bearing clearance of a Herringbone Grooved Journal Bearing (HGJB) supported rotor. The theoretical study investig ...
Nonlinear static and dynamic analysis is utilized by engineers to evaluate the seismic behavior of new and existing structures in the context of performance-based earthquake engineering. Numerous experiments on steel moment-resisting frames and their compo ...