What is a reinforced beam?
The sticked beam is usually a concrete beam that is reinforced with steel and supports a high weight load on a vertical scale. These are usually used in large buildings for longitudinal support. They add stability to the structure and are used in areas such as floors and ceilings, to withstand large amounts of tension. They transmit the weight they carry to nearby support columns, which also act to support and strengthen the building. For example, many structures throughout China are designed using reinforced beams due to frequent earthquakes. These rays are usually divided into two separate zones, and compression zones and tension zones . Steel reinforcements in these two pressure zones ensure that the beam concrete does not work under its applied weight load. Since the steel is stronger than concrete, both substances act together to carry these heavy loads.
Such a beam can be independently or double . These markings apply to the types of pressure that can be applied to the rays. The reinforced beam, which has a steel support in the voltage zone, is called individually reinforced. A beam with theft supports in compression zones and tension is generally referred to as twice the reinforced. Double -reinforced beams are usually constructed and allow the beam to remain thinner than an individually reinforced species. When the weight is applied to the beam, the steel provides a yield without creating the need for a large beam, while concrete ensures that the steel does not push under pressure again.
rays can be reinforced diagonally and perpendicular. It helps avoid excess joints during construction and allows a more efficient appearance in the architecture of the building. This diagonal reinforcement is equally safe in providing support during the earthquake.
Commercial buildings generally contain a large number of reinforced beams. Usually they are certifiedInspectors before the construction and use of the structure. Most countries have stipulated regulations for commercial construction, which apply to the assembly and weight capabilities for reinforced rays. If the beam is incorrectly reinforced or not reinforced at all, it cannot carry the vertical weight of other stories in the building and has a high probability of collapse when it is stressed.