1. © 2011 Autodesk Workflows for Analysis and Design Using Autodesk® Revit® Structure and Add-ons Thomas Fink CEO SOFiSTiK AG

2. © 2011 Autodesk Introducing myself  Thomas Fink  Studied Structural Engineering at Technical University Munich (TUM)  3 years research assistant at TUM  1983 – 1999: Self employed as chartered structural engineer  1983 – today: Software developments in structural engineering  1999 – today: CEO of SOFiSTiK AG  Building Smart: Member of the board, German Section  Bavarian Chamber of Engineers: Chair of working group “Innovations”  … and …  Loves to fly balloons and to sail (time permitting  )

3. © 2011 Autodesk Class Summary This class will present an overview of SOFiPLUS, an interface for structural analysis based on AutoCAD® and explain how it complements Autodesk® Revit® Structure. You will learn how to maximize benefits from Revit Structure 2012 by leveraging its new analytical model. We will also discuss the importance of working with partial models (slabs/shear walls, etc.) and code checking for single parts of the building (columns, slabs, etc.).

4. © 2011 Autodesk Learning Objectives At the end of this class, you will be able to:  Use the analytical model of Autodesk® Revit® Structure for structural analysis with SOFiSTiK FEA  Work with partial models such as slabs for more accurate analysis  Understand the workflow of code checking software using a Revit model and results from FEA  Create reinforcement drawings using results from the SOFiSTiK design and geometry from the BIM model.

5. © 2011 Autodesk General remarks  Building Information Modeling  SOFiSTiK AG  Supplier of high end software for structural engineers  Market leader in many parts of Europe  Based on Autodesk® products for 25 years  Engineering practice varies in the world  Lecture is based on European workflow

6. © 2011 Autodesk Step 1: Description of the Project

7. © 2011 Autodesk Sample project

8. © 2011 Autodesk Preparations  Beyond the scope of this lecture:  Modeling the Structure  Applying support conditions  Defining Loads  Adjusting the analytical model  Check Material Mapping  Check Cross Sections  Apply group properties to members

9. © 2011 Autodesk Step 2: Export to SOFiSTiK Analysis Software

10. © 2011 Autodesk Export to SOFiSTiK Structural Desktop

11. © 2011 Autodesk Check loading and groups

12. © 2011 Autodesk Step 3: Completion in SOFiPLUS

13. © 2011 Autodesk Properties not currently available in Revit  Must be defined in the analysis software  Must be repeated after each export from Revit   -> Modify in Revit as much as possible  More properties available in Revit in the future?

14. © 2011 Autodesk Change load properties in SOFiPLUS

15. © 2011 Autodesk Step 4: Calculation of the entire system

16. © 2011 Autodesk Eigenvalues

17. © 2011 Autodesk Step 5: Export and Analysis of the Slab as Subsystem

18. © 2011 Autodesk Refined analysis with partial systems  Not possible/desired to perform all design tasks on the entire model  Slabs as 2-D-systems  Membrane forces not desired  Design against shear forces needs finer mesh  Area loads have to be applied in several load cases  Columns  Design against lateral and torsional buckling

19. © 2011 Autodesk Area load division

20. © 2011 Autodesk Automatic generation of support conditions

21. © 2011 Autodesk Supporting rectangular beam  T-Beam-Section needed for Design  Increased stiffness not desired  Complex algorithm necessary to obtain realistic stiffness AND correct design results  Can be controlled by parameter “SOFiSTiK Effective Width”

22. © 2011 Autodesk Step 6: Code Checking - Design of footings

23. © 2011 Autodesk Code checking  Support forces from SOFiSTiK database  Geometric information from Revit  Design of footing  Import new object and rebars

24. © 2011 Autodesk Step 7: Detailing the slab

25. © 2011 Autodesk Flow of data

26. © 2011 Autodesk Geometry from Revit  Prepare a sheet with views in Revit  Export to SOFiCAD  Master drawing for defining rebar objects  External references with the geometry  Modifications  New external references  Adjusting rebars manually

27. © 2011 Autodesk Design results from analysis  Indication of required reinforcement  Automatic reinforcement layouts  Loose bars  Meshes  BAMTEC ®  Manual layout  Basic reinforcement  Reinforcement still required

28. © 2011 Autodesk Conclusion

29. © 2011 Autodesk Conclusion  The BIM philosophy is not a simple concept  BIM is supported very well by existing software  There is still some room for improvement  Thanks for listening  Q & A

30. © 2011 Autodesk Autodesk, AutoCAD* [*if/when mentioned in the pertinent material, followed by an alphabetical list of all other trademarks mentioned in the material] are registered trademarks or trademarks of Autodesk, Inc., and/or its subsidiaries and/or affiliates in the USA and/or other countries. All other brand names, product names, or trademarks belong to their respective holders. Autodesk reserves the right to alter product and services offerings, and specifications and pricing at any time without notice, and is not responsible for typographical or graphical errors that may appear in this document. © 2011 Autodesk, Inc. All rights reserved.