Revit Tutorial – Displaying Span to Depth Ratio of Steel Beams

In this tutorial we shall look at a method of calculating and displaying the Span to Depth ratio for steel primary and secondary beams. In early scheme design of a steel structure many engineers like to use the span to depth ratio to size members assuming a uniform loading across the beam.

Revit can be used to calculate and display the Span to Depth Ratio by creating a shared parameter and making a simple formula. Typically, a span to depth ratio of 13-15 is used for primary beams and 18-20 for secondary beams. In the following tutorial I will edit a UB family, add a shared parameter and then use the value of this and the structural usage to activate certain colours with filters. The image below shows the filters colouring, green is OK, red is over the limit and yellow is under the limit. To follow this tutorial, you will need Revit 2016 or later.

The first step is to create a shared parameter, this needs to be shared as this may need to appear in a schedule or be taggable. On the Manage Ribbon click the Shared Parameters command as shown below.

If you already have a Shared Parameter file, then click the New Parameter command as shown below. If everything is inactive, then you will need to create a new parameter file by clicking the Create button.

You will then be presented with the Parameter Properties Dialog. I am naming the new parameter SDR (Span to Depth Ratio) but you can use something else if you prefer. You will need to ensure that the new parameter is created as a Number. Click OK to both dialog boxes. Your new Shared Parameter is now ready for use.

Next you edit a Universal Beam family (or other section type for non-UK members). In the Project Browser, open the families folder and browse to Structural Framing. Below I am adding the parameter to UB-Universal Beams, but you can add this to any Section you require.

Right Click over the family and select edit. You are now in the Family Editor. On the Home Ribbon click the Family Types command as shown below

In the Family Types Dialog box click the New Parameter command as shown below.

In the Parameter Properties Dialog click the Shared Parameter radio button and then select the Select button as shown below.

Select your new SDR parameter and click OK. You now need to set the new parameter to Instance and group the parameter under Structural Analysis. Click OK. You should now see your new parameter in the Structural Analysis group.

Create the following formula. round(Length/Height)

This will take the length of the beam and divide this by the section height. Note that the section height appears under the Structural Section Geometry group. We then round this number to get a ratio value.  Save your new family and repeat for other families where you want to calculate the span to depth ratio.

Next you create a project parameter for your Span to Depth Ratio. This will enable you to create a filter. On the Manage ribbon click the Project Parameter button as shown below.

In the Project Parameter dialog, click the Add command. You will then see the Parameter Properties dialog as shown below. Configure the dialog by selecting Shared Parameter, select your SDR parameter and then click OK. Make sure that Instance is checked, group the parameter under Structural Analysis and check the category, Structural Framing. Click OK.

You now complete the last step to create a series of filters to colour the beams by their span to depth ratio. In this example you create a filter for secondary framing. You need to ensure that you have secondary framing in your project for testing. In a Project with the edited families that you have created in the steps above, open the Visibility/Graphics Override dialog and select the Filters Tab as shown below.

In the Filters tab click the Edit/New Button at the bottom of the dialog box. In the Filters Dialog box select the New command in the bottom left as shown in the image below.

In the Filter Name dialog box type Secondary Framing – Span/Depth OK.

You can now set the Category, Structural Framing and then set the AND rules to the following. ADR is greater that or equal to 18 AND SDR is less than or equal to 20 AND Structural Usage equal Purlin. Note that the Structural Usage may have differing terminology depending on the regional settings and template applied. Click OK.

You now select the Add command to add your new filter into the Visibility/Graphic Overrides Dialog.

You can then add green to override the linework and for extra impact add a solid green shade to the members. Anything that displays green is now in the correct span to depth range.

Once the filter has been set your secondary framing will appear green when the correct span to depth ratio is achieved. Note that you can create additional filters to show members that exceed and are too deep. You can also colour the SDR values in a structural framing schedule.

Hope you find this useful? I will try and create a tutorial video when I have some time.

LawrenceH

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Revit – Orient to View Problem in Large Projects

A very quick tip and trick when you need to create a 3D view that is oriented to another 2D view. In large projects you are presented with a list which does not come with a scroll bar or search tool. This means that you can spend a considerable amount of time clicking around to get your required view.

Simply create a new keyboard shortcut for the Orient to view command, take a look at the video for a quick and easy solution.

Hope this is useful

Revit Tutorial – Type vs Instance Parameters

Been a little while since I posted a tutorial but this month I am going ‘back to basics’ to talk about Instance and Type Parameters and where to use them. I still find that many people are using OOTB families that are not suitable for certain modelling workflows. I will focus in on two specific families, Structural Openings and Structural Framing. The structural Openings will be created with a Generic model family that’s face based, this will be ideal for rectangular openings in walls, foundations, floors, beams etc. Let’s start by looking at the instance properties of Structural Framing. In the image below I have selected the UB section, notice that the Structural Material is instance based.

It may be more relevant if we made this a type parameter as the structural material needs only to be set once per family type. To do this you can simply edit the family and change the instance parameter to a type parameter. With the Structural Framing Element selected, click the Edit Family button on the Modify | Structural Framing context ribbon.

The Structural Framing element will now be open in the family editor. Select the Family Type button as shown in the image below.

You will now see the Family Types Dialog box displayed. Note that the Structural Material is shown. An instance parameter will always have the bracketed word (default) displayed. This is the easiest method to spot the instance parameters.

Select the Structural Material parameter and then select the Edit Parameter command by selecting the pencil icon in the lower left of the dialog box as shown below.

You will now see the Parameter Properties Dialog box as shown below. Select the Type Parameter radio button as shown below and then click OK.

Click OK to the Family Types Dialog box, note that the Structural Material Parameter has the (default) removed as this is now a type parameter.

You can then save the family and set the type parameter. This will then update all members of the same family type.

A full video tutorial is available here, the video also covers the creation and use of structural opening family.

Revit 2020 – New Structural Features Review

This year Autodesk strengthen the steel detailing tools with some very useful tools to enable quick and efficient steel connection modelling. Revit is constantly criticised for a lack of model detail with fabrication elements. This release strengthens the 3D detailing capabilities for those that require higher Levels of Detail or fabrication models.

When using the Copy/Paste and editing tools the processing is 20x faster than the previous release and connections can now be automatically propagated. This is due to some smart background processing that calculates the elements that are being processed and allows you to continue with other tasks, the elements being processed are highlighted different colour. The background processing is for steel connections but also works when performing most editing tools. The Background Processing colour can be set in the Options dialog in the Graphics Tab as shown below.

Steel Connections now use types just like other Revit families. This means that you can create various types of base plates and then either select all instances and swap or edit the type parameters. This new feature makes controlling steel connections much easier.

The Propagate tool automatically recognises similarly connected steelwork and adds the relevant connections which greatly speeds up the processes of adding connections. Simply select a steel connection, right click and select Propagate Connection.

Many new parameters have also been added to facilitate the efficient creation of fabrication details such as the new hole parameters dialog box. You can now also set the grip length for bolts to allow for accurate sizing and calculation.

The only missing feature is the creation of automatic fabrication documents and CNC code which I am sure we will see in due course. I would anticipate that this will be a cloud-based tool to take advantage of efficient processing times and could use the BIM 360 products to track versions and store the drawings and NC codes.

Concrete Detailing Tools

This release brings more stability to Revit whilst adding reinforcement bar with slightly different cover settings. Certain elements can cause reinforcement bar to constrain to the wrong faces when copying, mirroring or moving bars. The algorithm has been updated to ensure that rebars remember faces and covers from the original element.

Improvements has also been made to the multi rebar annotations to allow dimensioning to the formwork. Multi rebar annotations can now also be added to freeform reinforcement provided that the reinforcement bars remain parallel.

LawrenceH

Tutorial – The Excitech Toolkit and Reinforcement

I have just created a quick video to showcase some of our Excitech Toolkit tools that could make you more productive when creating and detailing reinforcement in Autodesk Revit. These tools are free to all of our customers

For more information take a look at the following link.

https://www.excitech.co.uk/Insights/Blog/February-2019/The-Excitech-Toolkit

LawrenceH

 

Revit 2019 – Slow performance when selecting the File Tab

A very quick tip for a very annoying issue. Sometimes, when you delete or move Revit models the recent files list still looks for these missing references. This has an impact when you click the File Tab (can take minutes!) to open.

A quick fix is to delete these file paths from the Revit.ini file. The Revit ini file can be found the following folder (replace your user name shown in red):

C:\Users\YourUserName\AppData\Roaming\Autodesk\Revit\Autodesk Revit 2019

Open the Revit.ini file in notepad and remove the recent files (shown with the Red box). Click the Save command and the Revit.ini file will be updated.

Restart Revit and the slow File Tab should be much quicker!

LawrenceH

Advance Steel 2019 and Dynamo 2.0.2

A couple of releases back a set of Dynamo nodes were created to allow the connection between Dynamo and Advance Steel. A recent release sees this plug in upgraded for use with Dynamo 2.0.2.

The tools certainly look promising but could really do with a little more development. At present you can create members, add plates and custom properties which allows for the advanced modelling of members but limited control over connections and Advance Steel Properties.

The Dynamo for Advance Steel can be located on the Add-ins Ribbon as shown below.

Once Dynamo is running you will find the Advance Steel nodes shown below.

Steel members are created by providing a list of members start and end points and then a vector to describe the Section Orientation. Bear in mind that all Advance Steel members can be generated with the Beam tools. It would have been nice to be able to change the Model Role for each set of members as this would have increased the efficiency when creating larger frames with beams, braces, columns etc.

Most of the Dynamo Nodes are easy to understand but the defining the section to use can be a little tricky. The first stage is to locate the Advance Steel Profiles database. The quickest method is to launch the Advance Steel Management Tools and then open the installed databases. Filter this for the Profile Master Tables.

You will need to copy the TypeNameText of the section type that you require and Paste this into a Dynamo Code block or a String. Search the relevant table and then locate the SectionName required.

The TypeNameText and SectionName are then concatenated with a special code #@§@# which is used to separate the two strings. Your Code Block will look like the image shown below.

I tested the Advance Steel Dynamo nodes by creating the following space truss using the LunchBox tools.

The few nodes provided definitely show promise and with a little more development could really be useful. Of course, another option is to create the frame using Dynamo and Autodesk Revit and then export this into Advance Steel.

LawrenceH