![]() We may work on the structure after it has been created using post-processing mode. Pro was used to analyse the structure and create the individual member components in the following stage. In addition to other important criteria, T design-related practise standards were developed. Pro produced wind load estimates based on given wind strengths at various heights while adhering to IS 875 guidelines. According to STAAD load case criteria, the structure was tested for a range of loads, including self-weight, dead load, live load, wind load, and seismic loading. At its base, the tower was 1.5 m tall and 1.2 m wide. The y-axis was constructed using G + 4 floors in this scenario. The structure was three metres long as well. Our last job was to accurately analyse and design a G + 4 3-D RCC structure with a length of 3 m under a variety of load combinations. This is the first time a G + 4-story structure has been analysed and constructed to withstand the complete spectrum of load combinations. these tests proved to be rather dependable. ![]() For everything from model generation to result visualisation and verification, it is the most extensively used tool among specialists in the domains of modelling, analysis, and design. ![]() One of the project's main goals is to use the Limit State Method with the modelling and simulation programme STAAD Pro to analyse and design a multistorey structure.
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