Support For Tall Timber Reaches New Heights In ICC Building Code

by | Oct 31, 2018 | News

Prescriptive requirements for wood structures up to 18 stories were among the additions preliminarily approved for the International Building Code following the work of the International Code Council’s ad-hoc Tall Wood Buildings Committee.

Wood is widely recognized as a carbon-neutral building material, but its use as a structural material has been mostly limited to residential and low-rise buildings due to its combustible nature. Through recent advances in manufacturing and engineering, wood in the form of mass timber products is increasingly attracting interest as a structural system for tall buildings.

Portland, Ore., recently saw the completion of the eight-story Carbon12, currently the tallest wood building in the United States. Still, progress has been slow in this country as compared to Europe or Canada, where the 18-story-tall Brock Commons, in Vancouver, stands as the tallest timber structure in the world. One significant issue inhibiting widespread adoption in the U.S. is prescriptive building codes, which currently limit the height of wood buildings to 85 feet, or six stories. In December 2015, the International Code Council (ICC) formed an ad-hoc committee to study the impact of tall wood buildings on the building code with the membership voting on the adoption of proposed changes on Oct. 24.

The ICC’s International Building Code (IBC) classifies a high-rise building as any building with an occupied floor 75 feet above the lowest level at which fire department vehicles can access. The 2018 IBC defines heavy timber structural members as Type IV construction, which also includes a range of wood products, such as solid sawn timber, glue-laminated members, and composite wood members. The term mass timber, however, comprises both heavy timber as well as engineered products, many of which the IBC does not reference, such as cross-laminated timber (CLT).

Heavy timber construction is currently limited to a height of 85 feet. Architects can design taller wood structures, but they must demonstrate that the design meets the prescribed code and performs as well or better than a similar concrete or steel structure. This can be a costly and time-consuming process, requiring extensive testing and documentation on the part of the design team and building owner.

Read more on this from Architect Magazine at https://www.architectmagazine.com/technology/support-for-tall-timber-reaches-new-heights-in-the-building-code_o.

Norbord Posts Record Year In 2017

by | Feb 7, 2018 | News

Panel producer Norbord has posted record earnings in 2017 for its worldwide business. The company also achieved record production at nine of its 15 mills, while the Inverness OSB expansion project was also completed.

Peter Wijnbergen, Norbord’s president and CEO, described 2017 as an outstanding year, with record adjusted earnings before interest, tax, depreciation and amortisation (EBITDA) of US$672m. “US housing starts continued to improve, led by stronger growth in the single-family segment, driving increased North American OSB demand and prices,” he said. “Our European business had another solid year due to record sales volumes and improved prices for all our panel products across our key markets.”

He highlighted “great momentum” moving into 2018, with demand in all its core markets remaining strong.

“Meanwhile, our European business is poised for improved earnings next year as OSB substitution for plywood drives accelerated demand growth in our core UK and German markets.”

In Europe, shipments increased 5% over the prior year, with its mills running at 99% of capacity in 2017. In local currency terms, full-year average panel prices improved 11% from 2016.

From Timber Trades Journal: https://www.ttjonline.com/news/strong-panels-markets-boost-norbord-earnings-6046604/

Learning From Europe And Canada’s Timber Building Industry

by | Jan 5, 2018 | News

Learning From Europe And Canada’s Timber Building Industry

 

If the steady stream of newly announced mass wood projects is any indication, mass timber building technologies are poised to take the American construction and design industries by storm over the next few years. As products like cross-laminated timber (CLT), nail-laminated timber (NLT), glue-laminated timber (glulam), and dowel-laminated timber (DLT) begin to make their way into widespread use, designers, engineers, and builders alike are searching for the best—and sometimes, most extreme—applications for mass timber technologies. But rather than reinvent the wheel, American designers can look to experienced mass timber designers in Europe and Canada for key lessons as they begin to test the limits of these materials in the United States.

European and Canadian architects and researchers have long been at the forefront of mass timber design, starting with early experiments in the 1970s. By the 1990s, researchers like Julius K. Natterer at the Federal Institute of Technology in Lausanne, Switzerland, were developing initial CLT prototypes. Natterer’s work has been buttressed by that of many others, including research performed at the Norwegian Institute of Wood Technology under Thomas Orskaug and experiments conducted at the Technical University of Munich under Stefan Winter.

One key lesson European timber projects teach is that when it comes to structural systems, weight matters. On average, mass timber assemblies weigh between one-third and one-fifth as much as concrete structures, despite equivalent structural capacities. As a result, mass timber buildings are much lighter than concrete ones, a positive for building in tricky urban situations, for example—where underground rail yards, subway tunnels, and municipal utilities place limits on how heavy and tall buildings can be.

London-based Waugh Thistleton Architects (WTA), for example, recently completed work on Dalston Lane, a 121-unit CLT midrise complex located above a tunnel serving the Eurostar train line in the city’s Hackney neighborhood.

For the project, the architects worked with timber-engineering specialists Ramboll to develop a stepped tower cluster rising between five and ten stories tall. CLT panels are used for the external, party, and core walls of the building, as well as the stairs and the building’s floors. The variegated massing is due directly to the architect’s use of CLT construction, which resulted in a lighter building that allowed the designers to build taller without more extensive foundations. The resulting building, with its staggered massing, better maximizes daylight infiltration into apartment units. The added height allowed the architects to add 50 more units to the project than originally permitted, a testament to just how light CLT can be.

From The Architects Newspaper: archpaper.com

 

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‘Plywood On Steroids’ Holds Great Potential For Northwest Economy

by | Oct 30, 2017 | News

Oregon and Southwest Washington are well-positioned to become a manufacturing hub for cross-laminated timber — an innovative building product sometimes called “plywood on steroids” — according to a new study prepared by Oregon BEST.

The 110-page analysis found Oregon has the potential to create 2,000 to 6,100 direct jobs making cross-laminated timber and related mass timber products, which use adhesives and layered wood to create massive panels used as walls, floors and roofs, or beams. Mid-rise office and residential buildings are now being made with CLT, providing a dramatically lower carbon footprint than buildings using concrete and steel. Some high-rise projects using CLT are in the works.

Studies show CLT also cuts costs, mostly because construction takes less time. That cost advantage is projected to grow. “The cost of wood as a building material and as the raw material for CLT is expected to stay stable in the near future, while concrete and steel prices are forecast to raise with their relative energy prices and carbon costs,” the report states.

Oregon BEST, which commissioned the study along with partners, is a state-supported nonprofit that works closely with academia to nurture the state’s clean-tech industry.

CLT was developed in Europe, and European and Canadian companies got into the field before their U.S. counterparts. But D.R. Johnson became the first U.S. company certified to manufacture CLT in 2015, and is making it at its Southern Oregon plant in Riddle.

From Sustainable Life: https://pamplinmedia.com/sl/376727-262480-plywood-on-steroids-holds-great-potential-for-oregon-economy-environment

Maine Company Seeks To Produce Innovative Wood-Fiber Insulating Boards

by | Aug 18, 2017 | News

Maine’s glut of softwood fiber created by closed paper mills makes the state an ideal location for a factory that can produce insulation board from wood, a Belfast architectural and construction firm says, and it’s trying to find a European manufacturer that shares that vision.

GO Logic, which specializes in energy-efficient buildings, says it’s negotiating with undisclosed companies that make wood-based insulation board in Europe, where the product already is in commercial use. The goal is to have a plant operating here within two years.

Two of GO Logic’s executives also attended an affordable housing conference Aug. 3 and 4 in Philadelphia. One of them, GO Logic co-founder Matt O’Malia, was an invited speaker and discussed the company’s efforts. They also planned to line up commitments from a retailer in the New York City area to carry the product, as well as some contractors and a prefab builder. That’s crucial to attracting financing.

GO Logic also has been in discussions with a Maine lumber company that could be a source of sawmill waste, as well as a family-owned lumber yard with nine stores in Maine’s midcoast.

Taken together, these actions are another example of how businesses are looking at Maine’s abandoned paper mill sites and surplus capacity in wood harvesting to create new opportunities. Other efforts involve biofuels, agriculture and electricity generation.

From the Portland Press Herald: https://www.pressherald.com/2017/08/17/company-works-multiple-angles-to-produce-innovative-insulating-boards-in-maine/