What is the steel structural engineering? What does steel structural engineering include? Steel structural engineering is a structure mainly made of steel, which is mainly composed of steel beams, steel columns, steel trusses and other components made of section steel and steel plates. Each component or component is usually connected by welds, bolts or rivets, which is one of the main types of building structures.
Steel beams can be used for crane beams and working platform beams in steel structure factories, floor beams in multi-story buildings, and purlins in roof structures. The shear resistance of steel beams can also be calculated according to relevant formulas in material mechanics. For simplification, it is usually assumed that the shear force is fully borne by the calculated cross-section of the web plate on average. The web of the section steel is relatively thick, and its shear strength generally meets the design requirements.
At present, the use of building materials is very extensive, and the use of steel is essential in the construction process. However, there are many types of steel, and what are the connections and differences between them? Here, the editor will introduce the difference between c-shaped steel and Z-shaped steel:
The plan for lifting steel structures is to use two lifts or segmented assembly methods based on the characteristics of the site project, the duration of the project, and the construction situation. Sometimes, large-scale mechanical lifting is used for on-site lifting. In addition, attention should be paid to the sequence of lifting, which is very important.
Steel structure buildings are now very common, and the application of factory buildings is now adopted by most enterprises. Factory buildings mainly refer to the main load-bearing components composed of steel, including steel columns, steel beams, steel structure foundations, steel roof trusses, and steel roofs....
The processing and manufacturing process of building steel structures includes the selection of process flow, setting out, marking, cutting, correction, forming, edge processing, pipe ball processing, hole making, friction surface processing, end processing, component assembly, round pipe component processing, and steel component pre assembly.
The installation design and construction of seismic supports for steel structure industrial plants are complex, and there are many difficulties in rooting steel structures. Through the design calculation of seismic supports and on-site structural characteristics, cross disciplinary mechanical and electrical pipeline seismic supports and single system mechanical and electrical pipeline seismic supports are designed. The steel structure rooting uses beam clamp fixed channel steel for rooting.