The website expertmarketresearch.com estimates that the value of the global cross-laminated timber market hit $779 million in 2020, and is expected to grow annually by 13% to $1.624 billion in 2026.
As demand for mass timber increases, branding is beginning to emerge. One example is TimberQuest, an advanced prefabricated school construction product for the California educational market, which was recently launched by three Bay Area AEC firms: Milpitas-based XL Construction, San Jose-based Aedis Architects, and Saratoga-based Daedalus Structural Engineering.
The trio’s first project using its product is a new 4,000-sf building for kindergarten students with four 1,000-sf classrooms, each with its own restroom, for Sacred Heart Schools in Atherton, Calif., whose 63-acre campus and K-12 curriculum serve more than 800 families. The school greenlighted this project—which is believed to be the first of its kind in the nation—on April 1, and the mass timber components were fabricated and delivered to the construction site by June 1. The building team is targeting an August 31 completion date, in time for the fall semester.
“Two of the things we liked most about the TimberQuest classroom design is the ‘daylighting’ created by the structure’s large windows combined with the exposed wood interior that makes the classroom very pleasant and appealing,” says Michael Dwyer, Sacred Heart Schools’ director of operations. “The building’s overall energy efficiency supports our sustainability philosophy and stands as a shining example of these values we teach to our students.”
Also see: A fly-through video rendering of a TimberQuest classroom
A FLEXIBLE PRODUCTION APPROACH TO MASS TIMBER CONSTRUCTION
TimberQuest buildings are available in three-to-nine classroom sizes, and are designed to let in lots of natural light.
Matt Larson, XL Construction’s preconstruction director, tells BD+C that his firm and Aedis had worked together previously. “We also knew that we needed a structural expert on both mass timber and California codes. Daedalus [has] local expertise, and has partnered with Fast + Epp, a leading expert on mass timber, to provide both expertise under one roof. XL, Aedis and Daedalus have a core commitment to sustainability and innovation, which are at the heart of TimberQuest.”
Larson went on to explain TimberQuest’s approach to fabrication. For higher-tech items that require expensive machining (such as the mass timber components, the HVAC system, and the glazing system), the building team partners with local suppliers with existing plants. For lower-tech parts of panel fabrication, “there is no requirement for a large plant or expensive tooling,” says Larson. To fabricate walls and roofs, flexible approaches can include “popup” factories in temporary facilities, and using XL’s shop/yard. Fabricating onsite is also an option.
“We feel that this approach will help us avoid a common failure point for this type of venture, namely the overinvestment in facilities and tooling and lack of ability to quickly scale up or down,” says Larson.
FEWER DESIGN DAYS AND ONSITE TRADES
Several factors contribute to TimberQuest’s production speed. These include pre-made design for manufacturing and assembly, and the reduction in the number of trades needed for a project. Larson says that the building team has winnowed the design process—normally 6-12 months—to 6-8 weeks; and has cut the number of trades onsite—typically between 20 and 30—to around 10. “And we hope to reduce it further in the future,” he says.
TimberQuest buildings are available in three- to nine-classroom sizes, between 3,000 and 9,000 sf. A total of nine interior layouts are included in the precheck design, including standard classroom, large classroom, breakout space, office/conference, science, kindergarten and three restroom configurations. The all-electric design utilizes heat pump technology to exceed California’s Title 24 energy usage standards by between 35% and 60%. TimberQuest buildings seek to take full advantage of renewable energy resources.
Related Stories
| Feb 5, 2013
8 eye-popping wood building projects
From 100-foot roof spans to novel reclaimed wood installations, the winners of the 2013 National Wood Design Awards push the envelope in wood design.
| Sep 6, 2012
Young Spirit of Nature Wood Architecture award to Tiina Antinoja
The award is given for a student work in which wood as a building material has a central role.
| Jun 1, 2012
New BD+C University Course on Insulated Metal Panels available
By completing this course, you earn 1.0 HSW/SD AIA Learning Units.
| Jun 1, 2012
AIA 2030 Commitment Program reports new results
The full report contains participating firm demographics, energy reduction initiatives undertaken by firms, anecdotal accounts, and lessons learned.
| May 31, 2012
2011 Reconstruction Awards Profile: Ka Makani Community Center
An abandoned historic structure gains a new life as the focal point of a legendary military district in Hawaii.
| May 31, 2012
Perkins+Will-designed engineering building at University of Buffalo opens
Clad in glass and copper-colored panels, the three-story building thrusts outward from the core of the campus to establish a new identity for the School of Engineering and Applied Sciences and the campus at large.
| May 29, 2012
Reconstruction Awards Entry Information
Download a PDF of the Entry Information at the bottom of this page.
| May 24, 2012
2012 Reconstruction Awards Entry Form
Download a PDF of the Entry Form at the bottom of this page.
| Apr 27, 2012
APA launches wood design web portal for building and design pros
Design professionals who are members of APA’s Professional Associates are automatically enrolled in the APA Designers Circle program.