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| They are widely used in the ] 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. In horizontal applications, the minimum suitable size is usually determined by maximum permissible deflection rather than by ultimate failure capacity - a sagging floor is unsightly. | They are widely used in the ] 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. In horizontal applications, the minimum suitable size is usually determined by maximum permissible deflection rather than by ultimate failure capacity - a sagging floor is unsightly. | ||
| I-beams engineered from ] are also becoming increasingly popular in construction as they are both lighter and less prone to warping than solid wooden |
I-beams engineered from ] are also becoming increasingly popular in construction as they are both lighter and less prone to warping than solid wooden ]s. | ||
| Extruded plastic I-beams are occasionally used in modelling. | Extruded plastic I-beams are occasionally used in modelling. | ||
| ==External links== | |||
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| {{industry-stub}} | {{industry-stub}} | ||
Revision as of 15:42, 6 January 2006
I-beams are beams with an I- or H-shaped cross-section. The Euler-Bernoulli beam equation shows that this is a very efficient form for carrying bending in the plane of the web. It is not as capable in the transverse direction, and it is a poor choice for carrying torsion. Tubular sections are usually used to carry 3D loading. The I-beam has very little margin for plastic bending.
There are two standard I-beam forms:
- I-beam, formed by rolling or extrusion (depending on material)
- Wide flange or H-beam, formed by welding plates.
I-beams are commonly made of steel and may also be known as rolled steel joists or RSJs.
They 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. In horizontal applications, the minimum suitable size is usually determined by maximum permissible deflection rather than by ultimate failure capacity - a sagging floor is unsightly.
I-beams engineered from laminated timber are also becoming increasingly popular in construction as they are both lighter and less prone to warping than solid wooden joists.
Extruded plastic I-beams are occasionally used in modelling.
External links
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