Autodesk Revit BIM link for connection design (AISC)

So aktivieren Sie den Link

• Downloaden und installieren Sie (als Administrator) die aktuelle Version von IDEA StatiCa
• Vergewissern Sie sich, dass Sie die unterstützte Version verwenden

IDEA StatiCa integriert den BIM-Link während der Installation automatisch in Ihre FEA-/BIM-Lösung. Sie können den Status überprüfen und weitere BIM-Links für nachträglich installierte Software im BIM-Link-Installer aktivieren.

Öffnen Sie IDEA StatiCa und navigieren Sie zum Bereich BIM und öffnen Sie den BIM Link Installer. Eventuell erscheint eine Meldung Als Administrator ausführen, bitte bestätigen Sie mit Ja.

Bitte beachten Sie, dass einige FEA-Lösungen zusätzliche Schritte erfordern, um ihre BIM-Verbindung zu IDEA StatiCa vollständig zu aktivieren.

Öffnen Sie IDEA StatiCa und navigieren Sie zum Tab BIM und öffnen Sie den BIM-Link-Installer (Aktivieren deinen BIM-Link...).

Eine Benachrichtigung "Möchten Sie zulassen, dass diese Anwendung Änderungen an Ihrem Gerät vornimmt?" erscheinen, wenn ja, bestätigen Sie dies bitte mit Ja.

Der BIM-Link für die ausgewählte Software (falls gefunden) wird installiert. Der Bildschirm informiert Sie auch über den Status anderer BIM-Links, die möglicherweise bereits installiert wurden.

How to use the link

Autodesk Revit (Revit) has a feature that is not currently found in other BIM applications in that it can also host results from a suitable finite element analysis solution.  To that end we have created such a model for you to use with this tutorial using Revit 2023. The results have been obtained using Robot Structural Analysis 2023.  Revit 2023 introduces a new approach to analytical modeling and has moved away from automation to a more engineering centric approach.

Open the model in Revit - note this tutorial requires version 2023 or higher.

There are two Analytical 3D views that have been created to verify the loads and results.

Here are the loads that have been defined (partly in Revit and more in Robot):

The code combinations were defined in Robot as this was much easier to do and you could argue that this is the correct place to define them.  Another observation here is that the model in Revit is fairly code/country agnostic until this stage - as the loads could be applied to any national annex to generate a 'local' solution.

Although the view is 'Locked' the results still need to be loaded.  To do this go to the Analyze tab and select Results Explorer.

In the next window choose a suitable ULS load case combination, My for example and finally Apply.

If you expand the view (remembering to unlock it first) you will also see the legend.  The text size is affected by the overall view scale so this can also be adjusted.

The results show the My values for a ULS load case combination that was defined in Robot.

Different results can be visualized using the Results Explorer functionality from the Analyze tab.

Return back to the 3D Steelwork view.  The steel connections shown have been modeled from within Revit.  They  can only be seen if the Detail Level is set to Fine.

The BIM link should be automatically integrated. You can find it in the top ribbon under IDEA StatiCa -> Checkbot. This will open the Checkbot application.

Select the New option with project type Steel and design code USA/ASD (AISC 360-16). Then select Create project.

The new Checkbot project is ready to import connections from Autodesk Revit.

We are going to examine the baseplate and brace connection at the bottom of one of the internal columns.

This connection is actually two connections.  One for the baseplate and one for the brace.  The exception though is that the baseplate connection has been broken (exploded) into its component parts.  This is due to current limitations of the connection interaction.

In Checkbot, select One from the Import panel.

The focus is switched back to Revit and you are asked to select a connection - select the brace connection.

You are then asked to select connection objects (these are the members and other items that make up the whole connection) - using a crossing window select the objects as shown.

Finally select Finish in the top right of the ribbon area in Revit.

The last message box that appears asks if you want to import the recommended welds - respond Yes.

You may have to map materials and/or bolt grades.  Go ahead and map these and press OK.

The members and connection placeholder are then imported into Checkbot.

Please see our tutorials about Checkbot and other BIM Links for more information about the Checkbot interface.

Geometry

In Checkbot either select Open from the right hand panel

or right mouse click on the connection box and select Open

or right mouse click on the connection item and select Open.

If everything has been selected as shown you should have a view that looks like this:

This is where the combined geometrical and analytical approach is ideal as it creates an instantly useable connection in IDEA StatiCa.  With previous tutorials based on either FEA or BIM solutions there is always one part that is missing.

However, we do have some editing to do before we can calculate.  Although the brace is modeled, we still need to assign the correct Model Type - N-Vy-Vz.  This is because there is a single bolt in use.  The connection, as it stands, will still produce a mechanism because there is a single bolt passing through the sandwich and fin plates.  To get over this we can either introduce more bolts (which makes the connection bigger and more costly) or use a small weld on the trailing edge.

Add a weld to each sandwich plate bottom edge as it touches the fin plate:

It is also incumbent on ourselves to point out some known limitations that there is when working with Revit.

1. As a result of this connection export from Revit an extra plate is generated in Revit after the connection appears in Checkbot.  This should obviously be deleted.  Check back here for future updates!
2. The tubular brace is cut by a negative volume and finally welded.  However, there is a better way of doing this that gives better results: cut the brace by the plate and automatically weld one to the other.  Turn off NVOL 1; adjust Cut Beam by Beam 1 to the following and finally turn off Weld 6.
3. If you rotate the model you will see that two welds have come over as single sided fillet when they should be double sided.  For Weld 1 and Weld 5 make them double sided.
4. Edit the Anchors 1 operation so that the Shear is taken by the anchors and not by friction.

Given that the IDEA connection model originated from the Revit model there is an argument that the host information should be corrected first and then synchronized with IDEA (to keep the single-source-of-truth just that).

Now the model is ready to be calculated, press Calculate from the top ribbon:

After a few moments the initial 'traffic-light' results will appear.

PROBLEM WITH VAULES IN REVIT

HERE NOW

Before we go, we would also like to highlight the use of a generic connection in Revit.  A generic connection is used as a placeholder - 'a connection goes here but I don't know what it looks like' or the actual connection is too complicated for Revit!

Switching to wireframe mode you can clearly see a green connection holder on top of a column with multiple beams framing in and out.  Using a similar workflow to the baseplate and brace example this connection can be imported into Checkbot and edited with the Operations in IDEA StatiCa.  The benefit of this workflow is not as big as with the previous example but it is a way to import the members and their results.

There will be times when modifications to the Revit model are required.  The preferred workflow would be to make the desired geometrical changes in Revit, send the model for analysis, analyse and design for those changes before sending back any differences.  Checkbot can then look for those changes.

Modell synchronisieren

Manchmal gibt es Änderungen an Ihrem FEA/BIM-Modell, wie z.B. unterschiedliche Querschnittsgrößen oder Lasten der Bauteile. Diese können zwischen Checkbot und dem FEA/BIM-Modell synchronisiert werden.

Es gibt zwei mögliche Alternativen:

• Aktuelle Position synchronisieren (wenn ein oder mehrere Anschlüsse ausgewählt sind)
• Gesamtes importiertes Strukturmodell synchronisieren

Um diese Funktion zu testen, können Sie die Größe oder Form eines Bauteilquerschnitts in Ihrer FEA/BIM-Anwendung ändern oder einen Lastfall oder eine Kombination ändern usw.: Ändern Sie die Stützen in einen kleineren Querschnitt. Denken Sie daran, das FEM-Modell erneut zu analysieren.

Wählen Sie in Checkbot die konstruierten Verbindungen aus (es kann mehr als eine geben) und wählen Sie im Bereich Aktuelle Position die Option Synchr..

Das Checkbot-Projekt wird aktualisiert, das Verbindungsdesign bleibt erhalten, aber die Ergebnisse werden ungültig. Sie können sehen, dass die Stütze jetzt aktualisiert wird – entsprechend der Änderung im FEM-Modell.

Überprüfen Sie die hervorgehobenen Verbindungen einfach erneut, indem Sie im Bereich Aktuelle Position die Option Berechnen auswählen. Bitte denken Sie daran, dass größere Änderungen im Modell möglicherweise zusätzliche Schritte zur Überprüfung mit den betroffenen Verbindungen erfordern (wie oben).

Wenn die Verbindungen nicht die gewünschten Ergebnisse liefern, können Sie sie erneut öffnen, um die Bemessung zu optimieren (d.h. verstärken, wenn sie den Nachweis nicht bestehen, oder reduzieren, wenn die Auslastung zu gering ist).

You have successfully linked Autodesk Revit with IDEA StatiCa Connection via Checkbot.  You have even explored features that allow the Revit workflow to extend beyond known, published connection types.