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In Favor of Mass Timber Construction Systems

WEDNESDAY, FEBRUARY 14, 2018

By Letsfixconstruction.com


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Unless you’ve been living under a rock lately, you’re probably aware of the growing interest in and use of mass timber as a construction system in increasingly significant (larger and taller) buildings.

Architects are quickly latching onto mass timber because of its sustainable attributes; mass timber structural products can outperform steel and concrete, whether the metric used is embodied energy or the amount of air and water pollution produced during their extraction and processing. Additionally, wood products sequester carbon and are derived from renewable resources.

Despite the greater awareness and appeal of mass timber as a viable alternative to steel and concrete for primary structural systems in larger buildings, its use remains a challenge because current building codes have been slow to recognize its inherent fire-resistive properties, resilience and ability to be assembled by means capable of resisting seismic forces comparable to steel or concrete alternatives.

A recent CSI-Willamette Valley Chapter meeting was a real treat, as Eric McDonnell, a structural engineer and associate with KPFF, built a solid case in favor of mass timber construction systems. As someone who’s been at the forefront of the development of emerging industry standards for cross-laminated timber (CLT) use, Eric was eminently qualified to deliver a technically comprehensive, yet concise, primer on the topic to our audience.

Eric originally joined the KPFF San Francisco office in 2005, but left in 2010 to respond to a strong need in New Zealand for structural engineers capable of completing damage assessments and helping with the rebuilding process following the Canterbury Region earthquakes. He rejoined KPFF after two years of work in Christchurch, relocating to the firm’s Portland office.

Eric’s experience in Christchurch proved invaluable, as the damage wrought by the massive earthquakes served as a real-world laboratory for him and other structural engineers. Eric could see firsthand how the buildings there—designed and constructed in a similar fashion to those here in the U.S.—had performed.

The vast majority of buildings engineered to meet modern codes did achieve their life safety performance objective; however, the central business district was cordoned off for two years and more than 1,000 buildings ultimately were demolished because the cost to repair them was too great. In that aftermath, public entities, engineers and the general public began to ask whether it was reasonable to expect better outcomes in the wake of a seismic event.

Taking a Look at Rocking Walls

The notion of low-damage or resilient design took off in earnest. One of the most intriguing low-damage structural systems being implemented since the earthquakes involves the use of post-tensioned CLT rocking walls, which were initially devised by researchers at the University of California, San Diego. Eric worked on the design of a project utilizing this system during his time in New Zealand. Typically, a rocking wall is comprised of CLT panels connected to a steel footing by post-tensioned rods and special U-shaped brackets on the sides of the panels. The rods allow the wall to rock during an earthquake and snap back into its original upright position, minimizing structural damage.

Because of his experience with post-tensioned rocking walls, KPFF pegged Eric as a key member of its team studying the potential of mass timber construction. In the process, KPFF has sent him to join the best minds in the field at workshops and symposia around the world. The growing consensus among industry leaders is the real sweet spot for mass timber construction to economically compete with concrete and steel construction is in the mid-rise range of seven to 12 stories. At this scale, tall post-tensioned rocking walls are among the most promising and resilient lateral systems.

The challenge for the mass-timber industry is to overcome current regulatory hurdles. Because they are not prescriptively allowed by current codes, approvals for the already completed and ongoing projects have typically been processed through consent of alternative means and methods. This has been and is being done by relying upon the results of rigorous fire-resistive and stress-strain property tests on CLT panels.

A consortium of universities (among them UC San Diego, Oregon State University, Colorado State University, Washington State University and others), testing agencies and engineering firms like KPFF are conducting these tests. They are not inexpensive. Funding for the tests has come from a variety of sources, including the NSF, Katerra, Simpson Strong-Tie, Tallwood Design Institute, the Forest Products Laboratory, the Softwood Lumber Board, MyTiCon Timber Connectors, D.R. Johnson and, notably, Oregon’s City of Springfield.

Ultimately, the goal is to realize the adoption of new code provisions that recognize the unique qualities of mass-timber building systems. Once this goal is achieved, mass-timber projects will undoubtedly proliferate.

Eric showed us several fascinating videos of some of these tests, including a full-scale shake table test of a mock-up of a two-story mass timber building with resilient CLT rocking walls.

This particular test was conducted to provide data for a four-story parking structure in the Glenwood area of Springfield, and also for the 12-story Framework building in Portland, which will be the tallest all-wood post-tensioned rocking wall project in the world when it is completed. Eric and KPFF are involved in the design of both projects. The SRG Partnership is the architect for the Glenwood parking structure, and Lever Architecture is the firm designing the Framework tower.

The mock-up shown in the test includes resilient self-centering, post-tensioned CLT rocking walls, similar to the ones KPFF designed for use as part of the Framework project, and near-identical floor-to-wall connections. As Eric explained, the test specimen underwent 10,000+ years of shaking in five days, equivalent to six “San Francisco Design Basis” earthquakes with essentially no damage, and four “Maximum Considered” earthquakes with only limited damage where expected. All in all, the results are impressive.

Why Mass Timber?

Beyond its potential as a sustainable and resilient technology, its appeal lies in its aesthetic qualities, how quickly its components can be assembled once on site (reducing time of construction and labor needs) and the promise it holds for the wood products industry, once a dominant player in our regional economy. I believe the time-saving aspect is a game-changer: Once on site, contractors can install the panels quickly, shaving weeks or even months off a construction schedule. The advent of tall wood buildings will certainly challenge the hegemony of concrete and steel structures and reshape building codes as we know them, especially as the momentum toward the increasing use of mass timber builds.

Eric is someone who is on the vanguard of the mass timber movement. He truly has been in the right place, at the right time, and presented with the right opportunities at every step of his career. As a result, he has the background, experience and passion to make modern mass timber projects a reality.

About the Author

Randy Nishimura, AIA , CSI, CCS, is a principal with Robertson/Sherwood/Architects pc in Eugene, Oregon. A contributor to the Let’s Fix Construction website, Nishimura also frequently blogs on topics of interest to Construction Specifications Institute and American Institute of Architects members at sworegonarchitect.blogspot.com. He can be reached at rnishimura@robertsonsherwood.com.

ABOUT THE BLOGGER

Letsfixconstruction.com

Let's Fix Construction is written by a collective group of construction professionals involved in letsfixconstruction.com, an online impartial platform to provide forward-thinking solutions to many longstanding issues that have plagued construction. Organizers and contributors seek to better the industry by sharing knowledge, while creating open and positive communication and collaboration. Many of the posts have appeared first on letsfixconstruction.com and are republished on Durability + Design with permission. Author information is available at the bottom of each blog entry.

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Tagged categories: Building materials; Commercial Construction; Construction; Residential Construction; Wood

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