Trade labor shortages. Thinner margins. Tighter schedules. Quality control issues. Weather events. Increased complexity. Safety concerns. There is a laundry list of reasons why general contractors, construction managers, and subcontractors should be jumping in with both feet to adopt prefabrication on projects.
Many of the nation’s largest contractors, including Gilbane, Mortensen, Skanska, and Turner, have been utilizing prefab techniques on select projects for a decade or more. Mortensen, in a 2014 study, even quantified the cost and schedule savings from select prefab approaches—exterior panel walls, bathroom pods, multi-trade racks, patient room headwalls—implemented on a Denver hospital project. The company’s conclusion: For every dollar it spent on prefab, 13% of the investment was returned as a “quantifiable benefit to the project”—through schedule and cost certainty, improved productivity, fewer safety incidents, and manpower consistency. That’s a 1.13 benefit-to-cost ratio. Not too shabby.
Yet the prefab movement—while growing—has been relatively slow to take hold in a big way in the U.S. construction market, especially among GCs and CMs, according to a newly released joint study by FMI and BIM Forum.
Of the 156 firms surveyed for the report, nearly three-quarters (74%) indicated that they use some level of prefab on select projects. Solid adoption rate, right?
Now look at the numbers based on the volume of project work. Just 23% of respondents use prefab assemblies on more than half of their projects, and less than a third (32%) utilize the process on 21-50% of their firm’s projects.
Shockingly, among the firms that have adopted prefab construction, the overwhelming majority (86%) admit that the process is either “not effective” or “needs improvement.”
Even the most ardent users of prefab concede that the movement, for most firms, is still in the R&D phase. Construction teams don’t have the luxury of repetition. Each project comes with a different set of circumstances—location, client, project team, building program requirements, cost restraints, and schedule demands.
Trial and error testing requires multiple projects spanning several years to see what works and what doesn’t. Early prefab adopters like Birmingham, Ala.-based Golden Construction are just coming out of that cycle. “Ten years ago, we were just trying to prove that prefabrication worked,” the firm’s President Geoffrey Golden told FMI. “Today, the conversations have shifted to, ‘Just how much can we impact projects’ bottom line and schedule?’”
Mastering prefab, say the authors of the FMI/BIM Forum report, requires a top-down commitment to the process, a willingness to fail and try again, and an “all or nothing” mindset. Dabbling in prefab often turns into an expensive mistake.
Related Stories
| Mar 20, 2014
Common EIFS failures, and how to prevent them
Poor workmanship, impact damage, building movement, and incompatible or unsound substrate are among the major culprits of EIFS problems.
| Mar 13, 2014
Austria's tallest tower shimmers with striking 'folded façade' [slideshow]
The 58-story DC Tower 1 is the first of two high-rises designed by Dominique Perrault Architecture for Vienna's skyline.
| Mar 12, 2014
14 new ideas for doors and door hardware
From a high-tech classroom lockdown system to an impact-resistant wide-stile door line, BD+C editors present a collection of door and door hardware innovations.
| Mar 10, 2014
Meet Tally – the Revit app that calculates the environmental impact of building materials
Tally provides AEC professionals with insight into how materials-related decisions made during design influence a building’s overall ecological footprint.
| Mar 7, 2014
Thom Mayne's high-tech Emerson College LA campus opens in Hollywood [slideshow]
The $85 million, 10-story vertical campus takes the shape of a massive, shimmering aircraft hangar, housing a sculptural, glass-and-aluminum base building.
| Mar 4, 2014
How EIFS came to America
Design experts from Hoffmann Architects offer a brief history of exterior insulation and finish systems in the U.S.
| Feb 20, 2014
5 myths about cross laminated timber
A CLT expert clears up several common misconceptions and myths surrounding the use of wood as a building material.
| Feb 19, 2014
Harvard's 'termite robots' can build any thing, any way [video]
The robots build by observing thier environment and then obeying a set of traffic rules programmed by researchers.
| Feb 14, 2014
Scrap tires used to boost masonry blocks at Missouri University of S&T
Research could lead to blocks that use waste material and have seismic and insulating benefits.
| Feb 14, 2014
The Technology Report 2014: Top tech tools and trends for AEC professionals
In this special five-part report, Building Design+Construction explores how Building Teams throughout the world are utilizing advanced robotics, 3D printers, drones, data-driven design, and breakthroughs in building information modeling to gain efficiencies and create better buildings.
