Web Tapered Girder Design Based on AISC-ASD Spreadsheet
Professional tools for calculations and dimensioning of mechanical engineering problems using Excel spreadsheets.
A concrete slab is a common structural element of modern buildings. Horizontal slabs of steel reinforced concrete, typically between 10 and 50 centimetres thick, are most often used to construct floors and ceilings, while thinner slabs are also used for exterior paving.
In many domestic and industrial buildings a thick concrete slab, supported on foundations or directly on the subsoil, is used to construct the ground floor of a building. In high rise buildings and skyscrapers, thinner, pre-cast concrete slabs are slung between the steel frames to form the floors and ceilings on each level.
Calculation Reference
Reinforced Concrete Design
In most commercial buildings, floor and roof diaphragms are used to distribute loads in the horizontal plane of the structure to the lateral load resisting system.
Due to the open nature of most industrial structures, diaphragms are not present, and horizontal bracing is often used to distribute the loads in the horizontal plane. Horizontal bracing is also used in heavily-loaded commercial structures, where a diaphragm is not present, or where the strength or stiffness of the diaphragm is not adequate.
When horizontal bracing is used, the beams at that elevation become members in a horizontal truss system, carrying axial loads in addition to the normal bending and shear gravity loads. Careful attention should be paid to the beam end connections within the truss system because the axial loads transferring through the connections can be large.
Selection of Structural Shapes: The most common shapes used for horizontal bracing are single angles and WT shapes.
Single angles are the most economical shape for resisting small and medium loads, because WT shapes must be split from W shapes and straightened by the fabricator. WT shapes can be used to resist larger loads and where long spans are required.
Calculation Reference
Design of Commercial Buildings
Design of shear lugs for column base plates. The design is based on the procedure presented in AISC Steel Design Guide 1, Base Plate and Anchor Rod Design, 2nd Edition and AISC Steel Design Guide 7, Industrial Buildings, Roofs to Anchor Rods, 2nd Edition.
Calculation Reference
Building Code Requirements for Structural Concrete, ACI 318-08, (ACI 318)
Calculation Reference
Peterson’s Stress Concentration