Reinforced concrete (RC) is made using composite materials such as concrete and reinforcement. This type of beam is placed for reinforcement due to the low tensile strength and flexibility of the concrete. Thus, higher tensile strength or ductility can be obtained by providing reinforcement as required in this type of beam.
Nowadays, timber is used for decoration in the modern construction industry. Its use is avoided for the construction structure of the building. Due to the easy availability of wood in the village, wooden beams of the past are used.
The timber beam needs to be maintained properly from time to time. Therefore, timber beam can be a strong and durable building material for the structure if it is periodically inspected and maintained.
However, due to the various advantages of concrete beams, the use of timber for building materials is limited.
Steel beams are made from raw steel material to support heavy structural loads. The use of steel beams has higher strength and inertia than concrete beams in the structure of a building. Steel beams are manufactured in the factory in different shapes and sizes according to the construction.
Steel beams are used in various steel structures. Structures such as workshops, steel roofs, trusses, bridges, etc., can be constructed.
This type of beam is made as a structural member using more different materials, which are used in the structure of buildings to jointly act as a unit. In some building structures, steel-concrete composite beams are used to obtain strength and ductility as required.
Composite beams can be made using materials such as steel wood, wood-concrete, and plastic-concrete.
The cross-section of the rectangular beam experiences tension at the bottom of the beam and compression at the top.
Therefore, more reinforcement is given at the bottom than in the upper part of the cross-section of the beam. Rectangular beams are most commonly used in building construction.
T-beams can be made of reinforced concrete or wood with a T-shaped cross-section in construction. The top of the T-shaped cross-section in construction resists compressive stress as a compression member. In the T beam, the web (vertical section) of the beam below the compression flange resists shear stress and bending.
I beams are used in the construction of steel structures. I beams can safely resist deflection and bending moments in steel structures.
I-section beams are made as per the requirement prepared in the factory. The section beam consists of the top flange, web, and bottom flange.
I beam Section is used in critical support trusses in buildings. The I beam ensures the integrity of the structure with greater strength than other beam sections.
L - The beam is monolithic with a concrete slab in a reinforced concrete structure. This type of beam is used as a beam around a stair or lift opening. L-beam is a component of the structure of a building with slabs.
The L-beam is usually provided around the perimeter of the slab.
Both ends of this type of beam are fixed. In addition, the rotational movement in the fixed beam is controlled. Since the fixed beam is fixed at its ends, its end cannot be rotated.
The fixed beam is placed to resist intense pressure. This type of beam does not produce any reaction. It is used in high-rise buildings and industrial construction.
The simple structural elements of this type of building rest on both end bases. But this type of beam has pinned support at one end and roller support at the other end. In addition, this type of beam resists shear stress and bending moments.
This type of beam is usually a simple supporting beam-like structure. But in an overhanging beam, one end extends some distance from the support.
Typically, the beam is given to each end to transfer the load through the column. In an overhanging beam, one end of the beam is supported by a column, and the other end is overhung away from the support.
Overhanging Beam is commonly used in residential buildings designed to create shades or balconies.
The Double Overhanging Beam has overhanging at both ends, slightly away from the support.
In this type of beam, one end of it has a fix. And the other end is free. Cantilever beams are used especially for parking and sheds of the railway station.
Cantilever beams are widely used in the construction of residential buildings, especially cantilever bridges, and balconies.
The support reaction developed in this beam is calculated based on the basic equilibrium state. Statically determinate beams are analyzed using the basic equilibrium position to be used as a beam.
In this type of beam, the number of unknown forces in a statically defined beam is equal to the number of equations.
For static indeterminate beams, the number of strangers exceeds the number of equations. As a result, the equilibrium state is not sufficient to resolve the reactions. Therefore, analyzing this type of beam is more complex than statically defined beams.
This type of beam is made by the proper fixing of the formwork on the project site. Therefore, proper formwork is fixed for the beam. Then, fresh concrete is poured into it. During this concreting, compaction is done in the beam by a suitable vibrator machine.
Before placing this type of concrete beam in position, stress or strain is applied to it.
Prestressed-concrete beams designed by engineers can extend a greater distance than reinforced concrete beams. This type of beam is thin and light in weight.
Precast beams are made in the manufacturing plant. It is manufactured in a highly controlled environment and in ideal conditions for maximum beam strength.
The precast concrete beam is made in a very controlled manner with high quality. These finished precast beams are transported to the construction site for use.