To create a report in STAAD.Pro V8i, you first need to perform the Analysis on your model. Once the analysis is successful, follow these steps to set up and generate your customized report: 1. Open the Report Setup Go to the File menu or ribbon tab. Select Report and then click Setup.
The Report Setup dialog box will open, containing several tabs to customize your documentation. 2. Select Items for the Report
In the Items tab, you can choose which data to include. Use the arrows to move items from the Available list to the Selected list. Job Information: Typically included by default.
Input Data: Include node coordinates, member properties, and support conditions. staad pro v8i student version
Output Results: Add analysis results like Node Displacement Summary, Beam Maximum Moments, and reactions.
Pictures: If you used the Take Picture tool during your modeling or analysis phase, select them from the "Pictures" category to include them in the final report. 3. Customize the Layout
Load Cases: Use the Load Cases tab to select specific loads or load combinations you want to feature in your results. To create a report in STAAD
Name and Logo: Use this tab to type in your organization's name and address or to upload a custom company logo.
Options: Here you can toggle page footers (containing time stamps and program versions), adjust fonts, and add grid lines between table elements. 4. Preview and Export Click OK once your setup is complete.
Go back to File > Report and select Print Preview to check the report's layout before finalization. Key features (student edition)
To save it as a digital file, you can Print the report and select a PDF printer (like Microsoft Print to PDF) to generate a PDF document.
This video provides a visual walkthrough of selecting specific results and arranging pictures to generate a complete STAAD.Pro report:
Report generation Staad pro v8i : create pdf of staad output Real civil YouTube• Dec 21, 2018 Learn Staad Pro V8i - sciphilconf.berkeley.edu
STAAD.Pro V8i Student Version is an indispensable tool for civil engineering education. It provides a robust platform for modeling, analyzing, and designing structures ranging from simple beams to complex 3D frames. The case study of the Pratt Truss demonstrates that the software efficiently handles linear elastic analysis and steel design checks. Mastery of this software in the academic phase equips future engineers with the technical proficiency required to tackle real-world structural challenges effectively.