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A beam is a structural element
List of structural elements

Structural elements are used in structural analysis to simplify the structure which is to be analysed. An Wiktionary:element is defined as the simplest part of the whole....
 that is capable of withstanding load
Structural load

Structural loads are forces applied to a component of a structure or to the structure as a unit.In structural design, assumed loads are specified in national and local design codes for types of structures, geographic locations, and usage....
 primarily by resisting bending
Bending

In engineering mechanics, bending characterizes the behavior of a structural element subjected to an external Structural load applied perpendicular to the axis of the element....
. The bending force induced into the material of the beam as a result of the external loads, own weight and external reactions to these loads is called a bending moment
Bending Moment

A bending moment exists in a structural element when a Moment is applied to the element so that the element bends. Moments and torques are measured as a force multiplied by a distance so they have as unit newton-meters , or foot-pounds force ....
.

s generally carry vertical
Vertical direction

In astronomy, geography, geometry and related sciences and contexts, a Direction passing by a given point is said to be vertical if it is locally aligned with the gradient of the Gravitation Field , i.e., with the direction of the gravitational force at that point....
 gravitational force
Force

In physics, a force is that which can cause an object with mass to change its velocity. Force has both Euclidean_vector#Length of a vector and Direction , making it a Vector quantity....
s but can also be used to carry horizontal
Horizontal plane

In astronomy, geography, geometry and related sciences and contexts, a Plane is said to be horizontal at a given point if it is locally perpendicular to the gradient of the Gravitation Field , i.e., with the direction of the gravitational force at that point....
 loads (i.e., loads due to an earthquake
Earthquake

An earthquake is the result of a sudden release of energy in the Earth's crust that creates seismic waves. Earthquakes are recorded with a seismometer, also known as a seismograph....
 or wind). The loads carried by a beam are transferred to column
Column

File:National Capitol Columns - Washington, D.C..jpgA column in structural engineering is a vertical structural element that transmits, through physical compression, the weight of the structure above to other structural elements below....
s, wall
Wall

A wall is a usually solid structure that defines and sometimes protects an area. Most commonly, a wall delineates a building and supports its superstructure, separates space in buildings into Room s, or protects or delineates a space in the open air....
s, or girder
Girder

A girder is a support Beam used in construction. Girders often have an I beam cross section for strength, but may also have a box shape, Z shape or other forms....
s, which then transfer the force to adjacent structural compression member
Compression member

A compression member is a general class of structural elements of which a column is the most common specific example....
s.






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Encyclopedia


A beam is a structural element
List of structural elements

Structural elements are used in structural analysis to simplify the structure which is to be analysed. An Wiktionary:element is defined as the simplest part of the whole....
 that is capable of withstanding load
Structural load

Structural loads are forces applied to a component of a structure or to the structure as a unit.In structural design, assumed loads are specified in national and local design codes for types of structures, geographic locations, and usage....
 primarily by resisting bending
Bending

In engineering mechanics, bending characterizes the behavior of a structural element subjected to an external Structural load applied perpendicular to the axis of the element....
. The bending force induced into the material of the beam as a result of the external loads, own weight and external reactions to these loads is called a bending moment
Bending Moment

A bending moment exists in a structural element when a Moment is applied to the element so that the element bends. Moments and torques are measured as a force multiplied by a distance so they have as unit newton-meters , or foot-pounds force ....
.

Overview

Beams generally carry vertical
Vertical direction

In astronomy, geography, geometry and related sciences and contexts, a Direction passing by a given point is said to be vertical if it is locally aligned with the gradient of the Gravitation Field , i.e., with the direction of the gravitational force at that point....
 gravitational force
Force

In physics, a force is that which can cause an object with mass to change its velocity. Force has both Euclidean_vector#Length of a vector and Direction , making it a Vector quantity....
s but can also be used to carry horizontal
Horizontal plane

In astronomy, geography, geometry and related sciences and contexts, a Plane is said to be horizontal at a given point if it is locally perpendicular to the gradient of the Gravitation Field , i.e., with the direction of the gravitational force at that point....
 loads (i.e., loads due to an earthquake
Earthquake

An earthquake is the result of a sudden release of energy in the Earth's crust that creates seismic waves. Earthquakes are recorded with a seismometer, also known as a seismograph....
 or wind). The loads carried by a beam are transferred to column
Column

File:National Capitol Columns - Washington, D.C..jpgA column in structural engineering is a vertical structural element that transmits, through physical compression, the weight of the structure above to other structural elements below....
s, wall
Wall

A wall is a usually solid structure that defines and sometimes protects an area. Most commonly, a wall delineates a building and supports its superstructure, separates space in buildings into Room s, or protects or delineates a space in the open air....
s, or girder
Girder

A girder is a support Beam used in construction. Girders often have an I beam cross section for strength, but may also have a box shape, Z shape or other forms....
s, which then transfer the force to adjacent structural compression member
Compression member

A compression member is a general class of structural elements of which a column is the most common specific example....
s. In Light frame construction the joist
Joist

A joist, in architecture and engineering, is one of the horizontal supporting members that run from wall to wall, wall to beam, or beam to beam to support a ceiling, roof, or floor....
s rest on the beam.

Beams are characterized by their profile (the shape of their cross-section), their length, and their material
Material

Materials are substances or components with certain physical properties which are used as inputs to Production, costs, and pricing or manufacturing....
. In contemporary construction
Construction

In the fields of architecture and civil engineering, construction is a process that consists of the building or assembling of infrastructure. Far from being a single activity, large scale construction is a feat of multitasking....
, beams are typically made of steel
Steel

Steel is an alloy consisting mostly of iron, with a carbon content between 0.2% and 2.14% by weight , depending on grade. Carbon is the most cost-effective alloying material for iron, but various other alloying elements are used such as manganese, chromium, vanadium, and tungsten....
, reinforced concrete
Reinforced concrete

Reinforced concrete is concrete in which steel reinforcement bars or fibers have been incorporated to strengthen a material that would otherwise be brittle....
, or wood
Wood

Wood is an organic material; in the strict sense wood is produced as secondary xylem in the stems of woody plants, notably trees but also shrubs, etc....
. One of the most common types of steel beam is the I-beam
I-beam

I-beams are beam with an I- or H-shaped cross section . The horizontal elements are flanges, while the vertical element is the web....
 or wide-flange
Flange

A flange is an external or internal rib, or rim , for Shear strength, as the flange of an iron Beam or I-beam ; or for a guide, as the flange of a train wheel; or for attachment to another object, as the flange on the end of a pipe, steam cylinder, etc, or on the lens mount of a camera....
 beam (also known as a "universal beam" or, for stouter sections, a "universal column"). This is commonly used in steel-frame buildings and bridge
Bridge

A bridge is a structure built to span a gorge, valley, road, Rail tracks, river, body of water, or any other physical obstacle, for the purpose of providing passage over the obstacle....
s. Other common beam profiles are the C-channel
Structural steel

Structural steel is steel construction material, a Profile , formed with a specific shape or cross section and certain standards of Chemistry and strength....
, the hollow structural section
Hollow structural section

A hollow structural section is a type of metal profile with a hollow tubular cross section . In some countries they are referred to instead as a structural hollow section ....
 beam, the pipe
Pipe (material)

A pipe is a tube or hollow Cylinder used to convey materials or as a structural component. The terms pipe and tubing are almost interchangeable....
, and the angle
Structural steel

Structural steel is steel construction material, a Profile , formed with a specific shape or cross section and certain standards of Chemistry and strength....
.

Structural characteristics

Beamdiagram
Internally, beams experience compressive
Physical compression

Physical compression is the result of the subjection of a material to compressive stress, resulting in reduction of volume. The opposite of compression is tension ....
, tensile
Tension (mechanics)

In physics, tension is the magnitude of the pulling force exerted by a string, cable, chain, or similar object on another object. Tension is measured newtons or pounds-force and is always parallel to the string on which it applies....
 and shear stress
Shear stress

File:Shear stress.JPGA shear stress, denoted , is defined as a stress which is applied parallel or tangent to a face of a material, as opposed to a normal stress which is applied perpendicularly....
es as a result of the loads applied to them. Typically, under gravity loads, the original length of the beam is slightly reduced to enclose a smaller radius arc at the top of the beam, resulting in compression, while the same original beam length at the bottom of the beam is slightly stretched to enclose a larger radius arc, and so is under tension. The same original length of the middle of the beam, generally halfway between the top and bottom, is the same as the radial arc of bending, and so it is under neither compression nor tension, and defines the neutral axis (dotted line in the beam figure). Above the supports, the beam is exposed to shear stress
Shear stress

File:Shear stress.JPGA shear stress, denoted , is defined as a stress which is applied parallel or tangent to a face of a material, as opposed to a normal stress which is applied perpendicularly....
. There are some reinforced concrete beams that are entirely in compression. These beams are known as prestressed concrete
Prestressed concrete

Prestressed concrete is a method for overcoming the concrete's natural weakness in tension . It can be used to produce beam s, floors or bridges with a longer Span than is practical with ordinary reinforced concrete....
 beams, and are fabricated to produce a compression more than the expected tension under loading conditions. High strength steel tendons are stretched while the beam is cast over them. Then, when the concrete has begun to cure, the tendons are released and the beam is immediately under eccentric axial loads. This eccentric loading creates an internal moment, and, in turn, increases the moment carrying capacity of the beam. They are commonly used on highway bridges.

The primary tool for structural analysis of beams is the Euler-Bernoulli beam equation
Euler-Bernoulli beam equation

Euler-Bernoulli beam theory, or just beam theory, is a simplification of the linear theory of elasticity which provides a means of calculating the load-carrying and deflection characteristics of Beam ....
. Other mathematical methods for determining the deflection
Deflection (engineering)

In engineering mechanics, deflection is a term that is used to describe the degree to which a structural element is displaced under a force. The deflection of a member under a load is directly related to the slope of the deflected shape of the member under that load and can be calculated by integrating the function that mathematically descri...
 of beams include "method of virtual work
Virtual work

Virtual work on a physical system is the mechanical work resulting from either virtual forces acting through a real Displacement or real forces acting through a virtual displacement....
" and the "slope deflection method". Engineers are interested in determining deflections because the beam may be in direct contact with a brittle
Brittle

A material is brittle if it is liable to fracture when subjected to stress . That is, it has little tendency to deform before fracture. This fracture absorbs relatively little energy, even in materials of high Strength of materials, and usually makes a snapping sound....
 material such as glass
Glass

Glass generally refers to a Hardness, brittle, transparency amorphous solid, such as that used for windows, many Glass Bottles, or eyewear, including, but not limited to, soda-lime glass, borosilicate glass, acrylic glass, sugar glass, Muscovite , or aluminium oxynitride....
. Beam deflections are also minimized for aesthetic reasons. A visibly sagging beam, though structurally safe, is unsightly and to be avoided. A stiffer
Stiffness

Stiffness is the resistance of an Elasticity body to deformation by an applied force. It is an intensive and extensive properties....
 beam (high modulus of elasticity and high second moment of area
Second moment of area

The second moment of area, also known as the area moment of inertia or second moment of inertia is a property of a shape that can be used to predict the resistance of beams to bending and deflection....
) produces less deflection.

Mathematical methods for determining the beam forces (internal forces of the beam and the forces that are imposed on the beam support) include the "moment distribution method
Moment distribution method

The moment distribution method is a structural analysis method for statically indeterminate Beam s and frames developed by Hardy Cross. It was published in 1930 in an ASCE journal....
", the force or flexibility method
Flexibility method

In structural engineering, the flexibility method is the classical consistent deformation method for computing member forces and displacements in structural systems....
 and the direct stiffness method
Direct stiffness method

As one of the methods of structural analysis, the direct stiffness method , also known as the displacement method or matrix stiffness method, is particularly suited for computer-automated analysis of complex structures including the statically indeterminate type....
.

General shapes

Most beams in reinforced concrete
Reinforced concrete

Reinforced concrete is concrete in which steel reinforcement bars or fibers have been incorporated to strengthen a material that would otherwise be brittle....
 buildings have rectangular cross sections, but the most efficient cross section is a universal beam. The fact that most of the material is placed away from the neutral axis
Neutral axis

An axis in the cross section of a Beam or shaft or the like along which there are no longitudinal stresses / strains. If the section is symmetric and is not curved before the bend occurs then the neutral axis is at the geometric centroid....
 (axis of symmetry in case of universal beam) increases the second moment of area
Second moment of area

The second moment of area, also known as the area moment of inertia or second moment of inertia is a property of a shape that can be used to predict the resistance of beams to bending and deflection....
 of the beam which in turn increases the stiffness.

A universal beam is only the most efficient shape in one direction of bending: up and down looking at the profile as an I. If the beam is bent side to side , it functions as an H where it is less efficient. The most efficient shape for both directions in 2D is a box (a square shell) however the most efficient shape for bending in any direction is a cylindrical shell or tube. But, for unidirectional bending, the universal (I or wide flange) beam is king.

Efficiency means that for the same cross sectional area (Volume of beam per length) subjected to the same loading conditions, the beam deflects less.

Other shapes, like L (angles), C (Channels) or tubes, are also used in construction when there are special requirements.

See also

  • Bending
    Bending

    In engineering mechanics, bending characterizes the behavior of a structural element subjected to an external Structural load applied perpendicular to the axis of the element....
     and Bending Moment
    Bending Moment

    A bending moment exists in a structural element when a Moment is applied to the element so that the element bends. Moments and torques are measured as a force multiplied by a distance so they have as unit newton-meters , or foot-pounds force ....
     and Euler-Bernoulli beam equation
    Euler-Bernoulli beam equation

    Euler-Bernoulli beam theory, or just beam theory, is a simplification of the linear theory of elasticity which provides a means of calculating the load-carrying and deflection characteristics of Beam ....
  • Bridge
    Bridge

    A bridge is a structure built to span a gorge, valley, road, Rail tracks, river, body of water, or any other physical obstacle, for the purpose of providing passage over the obstacle....
  • Building code
    Building code

    A building code, or building control, is a set of rules that specify the minimum acceptable level of safety for constructed objects such as buildings and nonbuilding structures....
  • Cantilever
    Cantilever

    A cantilever is a Beam supported on only one end. The beam carries the load to the support where it is resisted by Moment and shear stress. Cantilever construction allows for overhanging structures without external bracing....
  • Classical mechanics
    Classical mechanics

    Classical mechanics is used for describing the motion of macroscopic objects, from projectiles to parts of machinery, as well as astronomical objects, such as spacecraft, planets, stars, and galaxies....
  • Compression member
    Compression member

    A compression member is a general class of structural elements of which a column is the most common specific example....
  • Deflection
    Deflection

    Deflection or deflexion may refer to:*Deflection *Deflection *Deflection *Electrostatic deflection*Deflection ...
  • Elastic modulus
    Elastic modulus

    An elastic modulus, or modulus of elasticity, is the mathematical description of an object or substance's tendency to be deformed elastically when a force is applied to it....
     or Modulus of elasticity
  • Elasticity (physics)
    Elasticity (physics)

    In physics, elasticity is the physical property of a material when it deforms under stress , but returns to its original shape when the stress is removed....
     and Plasticity (physics)
    Plasticity (physics)

    In physics and materials science, plasticity describes the deformation of a material undergoing non-reversible changes of shape in response to applied forces....
  • Free body diagram
    Free body diagram

    A free body diagram is a pictorial representation often used by physicists and engineers to analyze the forces acting on a free body. A free body diagram shows all contact force and non-contact force forces acting on the body....
  • I-beam
    I-beam

    I-beams are beam with an I- or H-shaped cross section . The horizontal elements are flanges, while the vertical element is the web....
  • Joist
    Joist

    A joist, in architecture and engineering, is one of the horizontal supporting members that run from wall to wall, wall to beam, or beam to beam to support a ceiling, roof, or floor....
  • Light-frame construction
  • Materials science
    Materials science

    Materials science or materials engineering is an interdisciplinary field involving the properties of matter and its applications to various areas of science and engineering....
     and Strength of materials
    Strength of materials

    In materials science, the strength of a material refers to the material's ability to withstand an applied stress without failure. Yield strength refers to the point on the engineering stress-strain curve beyond which the material begins deformation that cannot be reversed upon removal of the loading....
  • Moment (physics)
    Moment (physics)

    In physics, the term "moment" can refer to many different concepts:*Moment of force is a synonym for torque, an important basic concept in physics, civil engineering, and mechanical engineering....
  • Finite element method in structural mechanics
    Finite element method in structural mechanics

    Finite element method is a powerful technique originally developed for numerical solution of complex problems in structural mechanics, and it remains the method of choice for complex systems....
  • Poisson's ratio
    Poisson's ratio

    Poisson's ratio , named after Simeon Poisson, is the ratio of the contraction or transverse strain , to the extension or axial strain .When a sample cube of a materials is stretched in one direction, it tends to contract in the other two directions perpendicular to the direction of stretch....
  • Post and lintel
    Post and lintel

    Post and lintel is a simple construction technique, also called "post and Beam ", where a horizontal member is supported by two vertical posts at either end....
  • Second moment of area
    Second moment of area

    The second moment of area, also known as the area moment of inertia or second moment of inertia is a property of a shape that can be used to predict the resistance of beams to bending and deflection....
    , sometimes referred to as the moment of inertia
  • Shear strength
    Shear strength

    Shear strength in engineering is a term used to describe the strength of a material or component against the type of Yield or structural failure where the material or component fails in Shearing ....
      and Shear stress
    Shear stress

    File:Shear stress.JPGA shear stress, denoted , is defined as a stress which is applied parallel or tangent to a face of a material, as opposed to a normal stress which is applied perpendicularly....
  • Span (architecture)
    Span (architecture)

    Span is a section between two intermediate supports, e.g. of a beam or a bridge.A span can be made of a solid beam or of a rope. The first kind of span is used for bridges, the second one used for electric power transmissions, overhead telecommunication lines, some type of Antenna or for aerial tramways....
  • Statics
    Statics

    Statics is the branch of mechanics concerned with the analysis of loads on physical systems in static equilibrium, that is, in a state where the relative positions of subsystems do not vary over time, or where components and structures are at a constant velocity....
     and Statically indeterminate
    Statically indeterminate

    In statics, a structure is statically indeterminate when the static equilibrium equations are not sufficient for determining the internal forces and reactions on that structure....
  • Stress (physics)
    Stress (physics)

    In continuum mechanics, stress is a measure of the average amount of force exerted per unit area. It is a measure of the intensity of the total internal forces acting within a body across imaginary internal surfaces, as a reaction to external applied forces and body forces....
     and Strain (materials science)
    Strain (materials science)

    In continuum mechanics, the infinitesimal strain theory, sometimes called small deformation theory, small displacement theory, or small displacement-gradient theory, deals with infinitesimal Deformation s of a Continuum mechanics....
  • Structural analysis
    Structural analysis

    Structural analysis comprises the set of physical laws and mathematics required to study and predict the behavior of structures. The subjects of structural analysis are engineering artifacts whose integrity is judged largely based upon their ability to withstand loads; they commonly include buildings, bridges, aircraft, and ships....
     and Structural load
    Structural load

    Structural loads are forces applied to a component of a structure or to the structure as a unit.In structural design, assumed loads are specified in national and local design codes for types of structures, geographic locations, and usage....
  • Tensile strength
    Tensile strength

    Tensile strength , or is the Stress at which a material breaks or permanently deforms. Tensile strength is an Intensive and extensive properties and, consequently, does not depend on the size of the test specimen....
    , Tensile stress and Hooke's law
    Hooke's law

    In mechanics, and physics, Hooke's law of theory of elasticity is an approximation that states that the extension of a spring is in direct proportion with the load added to it as long as this load does not exceed the elastic limit....
  • Thin-shell structure
    Thin-shell structure

    Thin-shell structures are light weight constructions using List of structural elements. These elements are typically curved and are assembled to large structures....
  • Truss
    Truss

    In architecture and structural engineering, a truss is a architectural structure comprising one or more triangular units constructed with straight slender members whose ends are connected at joints referred to as Vertex ....
  • Yield (engineering)
    Yield (engineering)

    The yield strength or yield point of a material is defined in engineering and materials science as the Stress at which a material begins to Plasticity ....


Further reading


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