Tekla Structure |top| -
Tekla supports openBIM standards (IFC 2x3, IFC4, BCF). It imports from Revit, Rhino, SketchUp, and exports to analysis software (STAAD, SAP2000, ETABS).
Tekla Structures is a powerful software solution for building information modeling (BIM) and structural engineering. Developed by Trimble, Tekla Structures enables users to create detailed, accurate, and constructable models of buildings and other structures. In this article, we will explore the features, benefits, and applications of Tekla Structures.
Tekla Structures is a powerful BIM software that offers a comprehensive platform for structural engineering, building design, and construction. Its advanced modeling tools, BIM capabilities, and collaboration features make it an ideal solution for architects, engineers, and contractors. By using Tekla Structures, users can improve accuracy, productivity, and constructability, while reducing costs and environmental impact. tekla structure
Result: Project completed 6 weeks ahead of schedule with no major structural rework.
A 25-story commercial tower required coordination between steel frame, composite decking, and cast-in-place cores. Using Tekla Structures: Tekla supports openBIM standards (IFC 2x3, IFC4, BCF)
All drawings remain linked to the model — changes in the model update drawings instantly.
Traditional structural design often involves disconnected workflows: architects use one software, structural engineers another, and detailers rely on 2D CAD. This fragmentation leads to errors, rework, and project delays. Tekla Structures, developed by Trimble, addresses these challenges by providing a that contains not just geometry but also material properties, loads, connections, and fabrication data. Developed by Trimble, Tekla Structures enables users to
Building Information Modeling (BIM) has revolutionized the construction industry by enabling data-rich, collaborative, and precise project delivery. Among the leading BIM software platforms, stands out for its specialization in structural engineering, steel detailing, reinforced concrete design, and construction management. This paper explores the core features, workflow integration, and practical applications of Tekla Structures. It highlights how the software enhances accuracy, reduces material waste, and fosters multi-disciplinary collaboration. The paper also discusses the software’s limitations and learning curve. Ultimately, Tekla Structures is presented as a powerful tool that bridges the gap between design, detailing, and on-site construction.
From the 3D model, Tekla generates: