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REVIT STRUCTURE WITH WOOD WALL STRUCTURE, Manuais, Projetos, Pesquisas de Projeto Estrutural e Arquitetura

ESTRUTURA DE MADEIRA DESENVOLVIDA NO REVIT

Tipologia: Manuais, Projetos, Pesquisas

2018

Compartilhado em 20/03/2022

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Modeling a Wood Structure with Revit Structure
Thomas Weir Director of BIM & CAD Operations Brandow & Johnston Inc
SE214-2 The objective of this class is to explore how a large, wooden structure is modeled in Revit
Structure. We’ll examine the model creation process for two projects: a 4-story university student-housing
building and a church chapel. In each case, the project architect is using Revit. We will investigate how the
structural model is linked and coordinated with the architectural model and how it is used during the design
process. We’ll focus on wood framing and wood shear-wall modeling, as well as other specific techniques
required for this form of building design. The other main focus will be the derivation of 2D documentation from
the model. After completing this class, you’ll have a better understanding of the techniques for wood modeling
using Revit Structure.
About the Speaker:
Tom is Director of BIM & CAD Operations at Brandow & Johnston Incorporated, a structural engineering
consulting firm in Los Angeles, California. An early adopter and enthusiast of Revit modeling software, he is
the founder and president of the Los Angeles Revit Users Group. Tom wrote the first AOTC “Revit Structure
Essentials” manual for Autodesk, is moderator on the AUGI Revit Structure forum, and has taught at
Autodesk University for the past two years.
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Modeling a Wood Structure with Revit Structure

Thomas Weir Director of BIM & CAD Operations Brandow & Johnston Inc

SE214-2 The objective of this class is to explore how a large, wooden structure is modeled in Revit

Structure. We’ll examine the model creation process for two projects: a 4-story university student-housing building and a church chapel. In each case, the project architect is using Revit. We will investigate how the structural model is linked and coordinated with the architectural model and how it is used during the design process. We’ll focus on wood framing and wood shear-wall modeling, as well as other specific techniques required for this form of building design. The other main focus will be the derivation of 2D documentation from the model. After completing this class, you’ll have a better understanding of the techniques for wood modeling using Revit Structure.

About the Speaker:

Tom is Director of BIM & CAD Operations at Brandow & Johnston Incorporated, a structural engineering consulting firm in Los Angeles, California. An early adopter and enthusiast of Revit modeling software, he is the founder and president of the Los Angeles Revit Users Group. Tom wrote the first AOTC “Revit Structure Essentials” manual for Autodesk, is moderator on the AUGI Revit Structure forum, and has taught at Autodesk University for the past two years.

Email: [email protected]

Overview:

The challenge for us today is to define and generate a BIM solution for the design of wood structures, and to prove the need of more support from the Revit Structure developers.

That is why I was so impressed to see over 130 people signing up for this class. I was expecting half this many at best. Perhaps that is our first indication that a lot of people are doing this sort of design work with Revit Structure.

When I heard my proposal for this course had been accepted I decided to contact the Revit Structure developer’s to question them on their intent for the program in regards to improvements and additions for wood design that might be included in future releases. By chance I was going on vacation in my home state of Massachusetts (GO Patriots!) and decided I would pay a visit to my friends at Autodesk at the Revit Structure “factory” in Waltham. So I prepared a list of questions concerning problem areas that I am seeking some help on, and we met one afternoon for a long conversation.

Fishing as the sun rises on Cape Cod the “Factory”

Problems posed to the Revit Structure developers:

  1. Modeling a complete stud wall parametrically: showing the top and bottom plates as well as the stud layout, and wood sheathing in the case of a shear wall.
  2. Modeling shear wall hold downs that appear in plan and elevation and are hosted by the wall family. Hold down anchor annotations with coordination between plan and elevation
  3. Door headers: we normally see a symbolic hidden line on the floor above, but the header itself is on the floor below if accurately modeled.
  1. Making window and door families that have the framing already attached, i.e. studs, headers and sills, and are hosted by parametrically driven complete walls.
  2. Shear wall tags that automatically calculate and display the shear wall length.
  3. A steel beam family with shaped nailers on top that works parametrically.
  4. Adding bridging in a more automated fashion.
  5. A way to model floor and roof framing so that not every piece shows in course mode, even though all the members are modeled and show in 3D.

The result of our conversation, in short, was that there has not been as much development in wood design as I had hoped. Part of our conversation touched on the fact that over 70% of buildings constructed in the world use concrete as their primary material. So as might be expected this has tended to receive more of the research dollars at the company. Indeed much of our conversation centered on improvements pending in the concrete portions of the program.

At my company we do hundreds of projects, large and small, each year. We do a mix of concrete, steel, and wood design on both new and existing structures. The Revit developers said that most of the engineering companies in the world only work in one material, and most of those are in concrete. That is not true for my company and this surprised me. But as they pointed out wood construction it is quite prevalent in the Southern California market due to the abundance of wood that is available.

I said that for me the BIM software solution that I want to purchase will be an all around program that gives me design capabilities in wood, steel, and concrete.

The RST lineup: Wai Chu, Matt Jezyk, and Nicolas Mangon

Project Examples:

This example is a three story student housing project on a concrete podium parking garage. This is combined architectural/structural model. The project is now under construction and we are seeing a smaller than expected amount of RFI’s, or unexpected conditions on the project. This will be a main focus during the class.

Example #1: Student Housing

Student Housing

Here are the issues we will be discussing:

  • Wall type creation
  • Wall sections
  • Hold down anchors in plan and elevation
  • The header issue
  • Curb conditions
  • Shear wall notations
  • 3D stud wall creation

Building Section

Linking the architectural model:

The architectural file was linked to the structural file. I then used the copy/monitor feature to add elements to my own model. You will see how that process works.

You will also see how the architectural categories were manipulated using the Visibilty Graphics controls. With this example you will see how shear wall families were created and used.

Architectural wall with copied structural wall

  • You need to set your view display discipline to “coordination”
  • Link the architectural model using the origin-to-origin option

Example #2: Church Addition

Structural Church Addition

Partial Architectural view

This small church addition has large windows areas that necessitated two large steel rigid frames to be added. The roof is made with glulam girders with shaped tops. You could make them with solid extrusions, or a more advanced way is to adapt the wood family for the sloped top.

Y

Adapting the wood family for a sloped top

Example #3: Fire Station

Fire Station

Example #5: Elementary School

Elementary School

The elementary school has an extremely difficult roof condition. You will see how this condition

can be created. This school was also started with the help of an inserted Form_Z model.

Example #6: Existing wood studio

Existing Film Studio Expansion

In this case we have large cross wood trusses with bracing in this existing entertainment studio which needs to be retrofitted, as well as the addition of a steel and concrete service building.

Example #

More Student Housing

In this next example we have some tricky wood truss conditions. Though the centerline of the trusses must be the same for each member, each one is cut back from the standard layout, making many different types. In this case the truss wizard was not quite enough help. I created my own truss family. I then added a void to the truss family in order to cut back the truss where needed. I also arrayed and grouped similar types for easier updating.

Shallow Wood Truss

By adding a void with a vertical member attached to it, I was able to adjust the in-place family to automatically shorten the truss at either end.

Wood framing libraries

Building a “nailer” on the Steel Beam Family

  • Many commercial buildings, such as strip malls, and educational facilities use light steel, and wood as their materials.
  • When wood joists intersect with steel girders a wood “nailer” is bolted to the girder top, in order to attach the wood joist element.
  • Revit should have that family available. It doesn’t…Instead we will make our own family.
  • Since it does not exist we will adapt the default beam family to add in the “nailer” on top

Typical Details

With the advent of Revit Structure 2008 typical detail preparation became considerably easier.

You have the option:

  • Of importing and linking Autocad details
  • Of importing and partially, or fully exploding Autocad details

Once your Revit typicals have been prepared you can:

  • Save individual drafting views to a file from your project
  • Then insert the details individually
  • Or insert a whole sheet of details at once into your project
    • With the new Revit extension you can also freeze a detail
    • You can map your .shx fonts in AutoCAD to Revit TrueType fonts by editing the file "shxfontmap.txt". This method of mapping text fonts will give you more control on how your text appears in Revit.

The last method seems the most promising because stretching the wall will result in the

automatic addition of members depending upon the layout rule that you use. But doors and

windows cannot be hosted correctly in these scenarios so that they would automatically fit into

the framing.

I would like to see the “factory” give us a wall that is capable of being fully parametric, showing

studs and plates, and hosting fully framed window and door openings. And while they are at it

walls should host hold downs and their plan annotation symbol.

Window & Door Families

When we show door and window openings for a wood wall in elevation we normally show the

framing around it along with hold down anchors. We will examine how to adapt the opening

family to add members around openings.

Adding door opening framing

Another major issue with door and window openings is the header issue, as described earlier.

We will attempt to adapt the door opening family to also the header stick symbol in plan on the

floor above.

Summary

In this class you have seen several wood structure projects in order to examine the modeling techniques I have been using to create the construction documents. You have had a chance to see wall, roof and floor framing adaptations to existing families, as well as a wish list of items I feel we need help from the developers to accomplish. This is a work in progress.

We have also examined and tried to define the elements and methods necessary to create a BIM solution for this type of structure.

I want to thank you once again for taking your valuable time attend this class and I hope being at Autodesk University this year has been a great learning experience for you.