AutoCAD Structural Detailing: A Powerful Tool for Steel and Concrete Design
AutoCAD Structural Detailing (ASD) is a software product from Autodesk that facilitates the production of shop and erection drawings of structural steel and concrete reinforcement. It is based on the AutoCAD platform and integrates with other Autodesk products such as Revit and Advance Steel[^4^]. ASD helps structural engineers, designers, and detailers to work more efficiently and accurately, while supporting improved team collaboration and project delivery.
Some of the key features and benefits of ASD are:
It supports both 2D and 3D modeling of steel and concrete structures, with a comprehensive library of parametric objects and components.
It automates the generation of detailed drawings, schedules, and reports, with customizable templates and standards.
It enables the creation of dynamic views and sections that update automatically with model changes.
It allows the export and import of data to and from other BIM tools, such as Revit and Advance Steel, for better coordination and interoperability.
It supports various international codes and standards for steel and concrete design, such as Eurocodes, AISC, ACI, etc.
ASD is a powerful tool for structural engineering and fabrication that can help you optimize your designs, reduce errors, and accelerate your workflow. However, as of April 13, 2015, ASD has been discontinued by Autodesk[^1^]. Autodesk has been investing in new structural detailing solutions that support a wider range of modeling and documentation needs, such as Advance Steel and Autodesk Revit[^1^]. These solutions are better suited to meet the diverse and evolving needs of the global customer base. If you are interested in learning more about these solutions, you can visit the Autodesk website or contact your local reseller.BIM for structural design
BIM is not only a tool for creating and managing 3D models, but also a process that supports collaboration and communication among project stakeholders. BIM can help structural engineers to improve their design decisions, automate their construction documentation, and produce more accurate and constructible designs[^1^]. BIM can also enable structural engineers to perform structural analysis and code compliance verification within the same environment as the design model[^1^].
Some of the benefits of using BIM for structural design are:
It enhances the coordination and integration of structural design with other disciplines, such as architecture, MEP, and civil engineering.
It reduces the errors and conflicts that may arise from manual data transfer and duplication.
It increases the efficiency and productivity of structural design and detailing workflows, by automating repetitive and tedious tasks.
It improves the quality and consistency of structural documentation, by generating drawings, schedules, and reports directly from the model.
It facilitates the exchange and interoperability of data with other BIM tools, such as Revit and Advance Steel, for better collaboration and fabrication.[^1^]
BIM is transforming the way structural engineers work and deliver their projects. By adopting BIM, structural engineers can leverage the power of 3D modeling, analysis, and documentation to create more innovative and sustainable structures. 061ffe29dd