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For the text cursor of a graphical computer user interface, see cursor (computers).
For the night club, see I-Beam (nightclub).
This I-beam is used to support the first floor of a house.
I-beams (also known as double-T esp. in Polish and German) are beams with an I- or H-shaped cross-section. The horizontal elements are flanges, while the vertical element is the web. The Euler-Bernoulli beam equation shows that this is a very efficient form for carrying both bending and shear in the plane of the web. The cross-section has a reduced capacity in the transverse direction, and is also inefficient in carrying torsion, for which hollow structural sections are often preferred.
There are two standard I-beam forms:
I-beams are commonly made of structural steel but may also be formed from aluminium or other materials. A common type of I-beam is the rolled steel joist (RSJ) - sometimes incorrectly rendered as "reinforced steel joist". British and European standards also specify Universal Beams (UBs) and Universal Columns (UCs). These sections have parallel flanges, as opposed to the varying thickness of RSJ flanges. UCs have equal or near-equal width and depth, while UBs are deeper.
I-beams engineered from wood with fiberboard and/or laminated veneer lumber are also becoming increasingly popular in construction, especially residential, as they are both lighter and less prone to warping than solid wooden joists. However there has been some concern as to their rapid loss of strength in a fire if unprotected.
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I-beams are widely used in the construction industry and are available in a variety of standard sizes. Tables are available to allow easy selection of a suitable steel I-beam size for a given applied load. I-beams may be used both as beams and as columns.
I-beams may be used both on their own, or acting compositely with another material, typically concrete. Design may be governed by any of the following criteria:
In the United States the most commonly referred to I-Beam is primarily now a wide-flange (W) shape. While maintaining the general I-shape, these beams have flanges in which both flange surfaces are nearly parallel. Other I-Beams include American Standard (designated S) shapes, in which flange surfaces are not parallel and H-piles (designated HP) which are typically used as pile foundations. Wide-flange shapes are available primarily in grade ASTM A992ASTM A992 grade steel which has generally replaced older grades ASTM A572 and A36.
Rusty steel I-beam
Ranges of yield strength (where 1 ksi = 1,000 pounds per square inch):
Wide-flange shapes are produced by the electric arc furnace method and will generally contain more than 95% recycled content.Recycled content of steel
AISC, or American Institute of Steel Construction, produces a "Steel Construction Manual", that is used to design structures using various steel shapes and documents the common methodologies, ASD and LRFD, (as of 13th ed.) for designing steel structures.
In the United States, steel I-Beams are commonly specified using the depth and weight of the beam. For example, a "W10x22" beam is approximately 10 inches in depth (height when the I-Beam is standing on its flanges) and weighs approximately 22 pounds per linear foot.
In Canada, steel I-Beams are now commonly specified using the depth and weight of the beam in metric terms. For example, a "W250x33" beam is approximately 250 mm in depth (height when the I-Beam is standing on its flanges) and weighs approximately 33 kg/m (kilogrammes per linear metre) Handbook Of Steel Construction - 9th Edition (2006) Hardcover, by the CANADIAN INSTITUTE OF STEEL CONSTRUCTION
This article is licensed under the GNU Free Documentation License. It uses material from Wikipedia
