Author "Valensas Balsevicius" posts
The newest version of our Smart Assemblies BIM tool for automating shop drawings in Revit has just been released.
The primary update in the new version has to do with the Smart Dimensions feature. In the previous version of Smart Assemblies, the Smart Dimensions configurations were in the Hosted Metal Details tab:
But with this update, Smart Dimensions has been moved to its own tab, outside of Hosted Metal Details. This means that you can create dimensions by using settings in the Hosted Metal Details tab AND in the Smart Dimensions tab.
For current users of Smart Assemblies, it‘s important to know that if you had an existing configuration with Smart Dimensions turned ON, then in your configuration you will now find that Hosted Metal Details and Smart Dimensions are BOTH turned ON. In some situations that could cause duplicate dimensions because Hosted Metal Detail dimensioning rules and Smart Dimensions will both be applied.Read more »
Parking garages can be built from a variety of materials – cast-in-place, precast concrete, steel framing with concrete, even wood. Perhaps most often seen as stand-alone buildings, they are frequently incorporated into a larger structure, concealed below ground level or several floors above ground. Architecturally speaking they can range from simple to highly unique, boasting tailor-made façades. Functionally most are quite plain though they may be outfitted with complex automatic parking systems.
At any rate, we need them. A lot. That’s why they’re being built all over the place. Here in Vilnius, Lithuania, car parks are gradually relieving the lack of parking spaces, an all-too-common problem affecting cities worldwide. Underground ones are ideal in the city center here for preserving views of the city’s splendid architecture. Although every situation is different, precast concrete is probably the best choice for your typical, economical, functional parking structure due to its relatively simple design and fast construction timetable that’s less affected by weather conditions. Plus architectural ideas can easily be implemented in façade wall panels.
The AEC industry has been undergoing the transition from 2D digital drafting to 3D informational modeling, data management, sharing, linking between people and software platforms. In four words, building information modelling/management. In a word, BIM.
Image courtesy of CKR Engineers
If we look at the case of an independent, standalone parking garage building, most of it is structural. A typical one has simple architecture, and there’s hardly any MEP or other parts of the project to deal with. So in this article, I want to review the design workflow and available tools that make the process efficient in structural BIM models, particularly as regards modeling and documentation.
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Want to create layouts of precast concrete slabs efficiently in Revit? Our Precast Concrete design software has two tools to do that: Floor Panel Layout (for Floor system families) and the new Floor+C tool (for Structural Framing families).
While both Floor Panel Layout and Floor+C let you create solid, hollow core, double tee, and other types of slabs, in some cases one tool is better than the other. It also depends on user habits and project type. An example where you might want to use Floor+C is if you have warped double tee slabs, as are commonly used in parking garages in North America. Another situation is if your Structural Framing family has camber. And there are probably other cases our users will find.
Floor+C distributes Structural Framing families based on reference floor boundaries. This tool replaces a similar tool (Floor+M) that used to be part of our Precast Concrete toolbox. The reason for the replacement is that Floor+M had default steel families and some settings that were not related to precast. Floor+C should make it clearer since it comes with solid, hollow core, and double tee slab families and sample configurations for precast.
To use Floor+C, follow these steps:
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Following the release last November of our Wall Reinforcement tool for placing rebar in precast concrete wall panels in Revit, we got feedback from a lot of users saying they were interested in being able to group rebar.
Well, now you can! Creating rebar as sets brings advantages in dimensioning, getting information for construction without drawings, and also setting visibility of the set in views.
So in addition to some small tweaks and fixes, these settings have been added to the Wall Reinforcement Configurations window to create rebar sets. Just select the type(s) of reinforcement that you want to create as a rebar set…
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Beam Reinforcement, the newest feature incorporated into our Precast Concrete design software, lets you efficiently model beam reinforcement for rectangular, L and IT shaped beams per your defined rules. By applying layout rules to different types of stirrups, you can create most any reinforcement pattern.
Here’s a webinar we hosted showing the workflow for using Beam Reinforcement as a feature of our Precast Concrete design software.
You can read through the basic workflow for using Beam Reinforcement below.
These are the commands at your disposal:
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Want to efficiently model reinforcement for beams in Revit? Sign up for our free webinar showing a new tool that does just that. Our soon-to-be-released Beam Reinforcement app will allow you to place main reinforcement and stirrups via user-defined layout rules.
This free, 1-hour webinar is especially suited for structural engineers, modelers, and really anyone who wants to place reinforcement in Revit more efficiently. Join in and get a pre-release look at AGACAD’s newest Revit add-in.
The Beam Reinforcement app can be applied to rectangular, L, and IT (inverted T) beams. Works best for precast but also for cast-in-place concrete.
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A few months ago we released a couple of Dynamo scripts for reinforcing precast walls in Revit. Since those churned up a lot of interest, we decided to go forward with creating a Wall Reinforcement add-on.
Wall Reinforcement lets you efficiently distribute wall reinforcement for solid, double, and sandwich walls based on defined rules. It recognizes the shape of the wall and distributes the main reinforcement and additional reinforcement for the wall perimeter and openings.
Here’s a webinar we hosted that shows the workflow for using this Revit extension.
And here’s an outline of the basic workflow to follow when using Wall Reinforcement.
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Modeling reinforcement for walls in Revit is quite time consuming, so we are releasing a new tool very soon to make it much easier and way more efficient. The Wall Reinforcement app will allow you to place vertical, horizontal, and diagonal bars; edge reinforcement; and U-shaped bars.
This free, 1-hour webinar will be especially informative for structural engineers, modelers, and really anyone who wants to create wall reinforcement in Revit more efficiently. Join in and get a premier look at the newest Revit add-on to join the AGACAD arsenal!
The Wall Reinforcement app can be applied to solid, double, and sandwich walls.
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Our Precast Concrete solution is great for automating modelling, numbering, and shop-drawing creation in Revit, but efficiently modelling reinforcement in a 3D model can still be a challenge. Following our post about using a Dynamo script to create rebar by selected edges, here we show how to make a layout based on certain rules and apply it automatically to elements of different length. This can be done in the same Dynamo script.
You’ll recall that we created a rebar layout via a simple Code Block with a defined bar number and step.
Let’s add another node to select one more Edge, and read its length with the Curve.Length node like this:Read more »
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Smart Assemblies has always helped Revit® users save hours of work when creating schedules for assemblies, and we continue to make this BIM solution ever more powerful. The latest update adds a new Schedule View Template option (in addition to the already-existing Schedule Instance.
Schedule Instance uses the actual schedule from the project browser as a schedule template. The user needs to have that schedule in the project with Schedule View Template assigned (for more about that, see Automated Schedules in Smart Assemblies).Read more »