What is the stress of beam?
The beam voltage is applied to a beam that can cause tension, compression and strut. These structural members are designed with some elasticity, so instead of set off under voltage. When designing and designing a building, it is important to choose rays of adequate force to prevent compromises of structural integrity. If the beam is not strong enough, it may fail, which could create a weak point in the building. Enough weak points or poorly placed could cause the entire structure to drop. The beam characteristics are an important part of the equation, including length, height and profile in the cross -section. Another point of view is the material. For example, metal rays are stronger than wooden and some metals are more elastic than others. All these properties may have an impact on the way the beam is done when pressure is exposed.
The structures add weight to the beam. The beam voltage calculations must determine what happens to the beam in the finished structure. Other structural memberThey should take part of the weight, reduce the beam stress, and the configuration in the building can determine how it works. The beams are used in floors, roofs and other components of the structure and must be very strong in high buildings due to the incredible weight of the finished structure.
In addition to dead weight, engineers have to think about a live weight. This includes beam stress when a building is full of staff that can move and relocate heavy objects from lifts to production equipment. The wind and other from the outside can also contribute to a living weight. Calculations of the beam voltage may show that the beam cannot be performed under certain conditions, in which case it will not be sufficient for N building.
For any given beam in the building, the engineer can determine the load on it and whether the beam will last. If the engineering check shows that some rays are not enough for need, the engineer can make some changes inthe structure. They could move from the change of beam for a stronger structural member that lasts a burden to reconfigure the space to reduce the beams. These changes must be made carefully, as they can redistribute the weight with another beam and cause a problem somewhere else. Computer design software can help with this task.