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Finish Mid-rise Projects Faster: Where BIM Meets Product Innovation

Understand cold-formed steel joist products, and then pre-plan to avoid clashes in the trades and create efficiencies in your construction project.

Why should contractors build virtually before erecting anything physically on the job site? Because upfront planning with other trades can creative a positive environment for the contracting team, speed up workflow, cut costs and trim man-hours required to complete projects.

Collaborative meetings utilizing Building Information Modeling (BIM) can resolve problems before they occur. This is true when using all building materials, including cold-formed steel (CFS) floor assemblies.

First, let’s talk about the state of today’s CFS joist products. Then, we’ll dive into how to get the most out of coordinating among the trades.

Traditional vs. proprietary CFS studs

It used to be that to build a floor with traditional C-studs, studs were turned on edge and braced with web stiffeners. You needed stiffeners to carry lateral loads along a horizontal plane. Not only were there lots of parts and pieces, but you also needed a lot of labor to erect the floor assemblies.

All that has changed with the introduction of stiff, proprietary joist products fabricated with large knockouts — holes large enough to run standard-size plumbing and ductwork.

New, proprietary CFS joists are stiff. They require fewer bridging bars, lateral blocking, joist hangers and web bracing than traditional C-studs. Less material means less space is needed on the job site. And, generally, fewer crew members are needed to install the systems.

Finish Mid-rise Projects Faster: Where BIM Meets Product Innovation comparison

Kick-off meetings work best if the general contractor takes the lead in facilitating communication among the trades. Here’s everybody’s role:

Each player’s pre-planning role

  1. General contractor
    The general contractor calls the kick-off meeting, making sure to give everyone plenty of advance notice so final decisions can be implemented.
  2. Architect
    The architect coordinates the HVAC system’s design and location along with the mechanical and CFS engineers.
  3. Mechanical, Electrical, and Plumbing (MEP) contractors
    In turn, the MEP trades coordinate with the CFS engineer and the framing contractor. They should discuss the location of toilet traps, mechanical returns and main trunk locations, any special knockout diameters they need within floor joists, etc.
  4. CFS engineer
    In designing the structural steel system, the CFS engineer coordinates knockout alignments of the floor joists, as well as the locations of in-floor girders. A good framing design helps the MEP trades have proper access to and placement of their systems.
  5. Framing contractor
    Working with the other trades, the framing contractor tries to stage its work efficiently and generate less material waste, which enables all trades to run with leaner crews. The framing contractor’s upfront coordination ensures proper knockout alignments. And, he can see potential field conflicts and alert others early.
  6. BIM modeler
    BIM is a significant improvement to the old method of clash detection with trades. The BIM modeler’s work helps keep MEP systems within the plane of the floor assembly. This eliminates unnecessary and costly bulkhead and drop-ceiling framing conditions and increases the overall efficiency of the construction process.

Does pre-planning work?

Here’s an example of a successful mechanical system installation done with proper planning prior to the project start.

Finish Mid-rise Projects Faster: Where BIM Meets Product Innovation example

Mechanical system, floor joists and deck aligned and optimized through pre-planning meetings held upfront by the GC, architect, and the trades.

Mechanical system, floor joists and deck aligned and optimized through pre-planning meetings held upfront by the GC, architect, and the trades.

A large HVAC system runs inside the joist bay — parallel with the joist framing. The ductwork is pulled through the knockouts within the floor assembly. All systems are aligned and space usage is optimized. The project features:

  • Proprietary floor joists with large-diameter knockouts
  • Floor joists offset to accommodate the large main HVAC runs
  • Main HVAC runs and ductwork match the positioning of the floor joist knockouts
  • 9/16” corrugated steel deck, which clear-spans up to 30 inches

Clearly, projects that plan upfront and use proprietary CFS joists are successful. Pre-planning helps the trades avoid potential clashes, saving time, labor and money.

To learn more about how CFS products can increase a project’s return-on-investment in a variety of commercial and residential applications, download ClarkDietrich’s “The Evolution of Cold-Formed Steel Joist Framing Products.”

ClarkDietrich Building Systems

ClarkDietrich Building Systems, formed in 2011 through the combination of two established market leaders – ClarkWestern Building Systems and Dietrich Metal Framing – offers a broad range of steel construction products and services across the nation and abroad. Using cold-formed steel, ClarkDietrich manufactures innovative products for interior framing, interior finishing, exterior framing, floor and roof framing, as well as clips, connectors, metal lath, barrier mesh and accessories. Creating partnerships with teams of architects, engineers, building developers, and contractors, ClarkDietrich uses cold-formed steel to bring change to the built environment.

Comments

  1. The top photo is from 525 Water Street in Washington DC. Fun project to provide engineering and wall panels! Check out this link if interested in learning more. http://www.cfsei.org/excel-engineering-the_wharf

  2. Top photo is a nice project in DC, Frameco Panels and Hambro joists. CFSEI award winner for the cold-formed work Excel Engineering did. Check out January’s article in Structure magazine to learn more.

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