Freres Lumber Unveils MPP, Adding Plant In 2017

by | Dec 7, 2016 | News

Freres Lumber Unveils MPP, Adding Plant In 2017

Capitalizing on the current interest in building large-scale wooden buildings and more multi-story wooden structures, longtime Oregon plywood and veneer producer Freres Lumber has introduced the “Mass Plywood Panel” (MPP), a veneer-based engineered wood product that’s been more than a year in development while being tested and refined in conjunction with Oregon State University.

Calling the MPP the “first veneer-based product of this size and scale that’s been proposed to the marketplace,” Freres Lumber Executive Vice President Rob Freres says the MPP development represents the kind of innovative investment required to differentiate the company, add value and stay on the leading edge of product development and new technology.

Freres Lumber is adding an MPP plant near its Lyons, Ore. veneer plant and its Mill City, Ore. plywood plant. The facility is starting with a scarfing line and test press in early 2017, with a building planned for completion by late third quarter and commercial production to begin by late 2017.

“This will allow us to test panels and gain certification,” Freres says, adding he believes MPP will qualify under LVL and CTL standards.

A week after announcing the new product, Freres reps displayed MPP at the North American Wholesale Lumber Assn.’s Trade Market trade show in Las Vegas in late October. In a blog post on Freres Lumber’s web site, plywood sales rep Bob Maeda noted an “overwhelming response” to the product.

He added that Freres officials had “great discussions with many industry experts about product opportunities” that include crane mats, large cross-laminated timber (CLT) -like floor panels, solid wall panels, concrete forming applications, solid structural columns, scaffold planking, long length scarfed panels, furniture applications and more. “We have had a lot to digest and think about, but the opportunities seem to be many, and that is the exciting part,” Maeda posted.

Freres says the MPPs can be produced in dimensions up to 12 ft. wide, 48 ft. long and 12 in. thick. He believes a veneer-based mass building panel is more appropriate than the lumber-based CLT mass panel because defects are more easily removed during veneer production, and early research shows MPPs may reach the same strength values as CLT but using 20%-30% less raw material.

In addition, he says, the veneer layup process gives the MPP more engineering flexibility when it comes to meeting customer needs. MPP’s relative lightness, plus the aesthetic aspects of veneer add to MPP’s competitive benefits, Freres believes.

Moving ahead, Freres says, “We’re going to be testing a lot of different combinations and veneer thicknesses.” He believes MPP will be able to match the properties that engineers, builders and architects are looking for but with less raw material.

“It’s really exciting,” Freres says. “We’re looking at a multitude of different types of products, and it’s really a way to diversify and not be so reliant on standard commodity products.”

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New Prototype Plywood Panels May Be World’s Largest

by | Nov 30, 2016 | News

A new massive plywood building panel developed by an Oregon company and tested at Oregon State University may be the largest such product ever manufactured.

Builders are familiar with standard plywood sheets that measure 4-feet wide, 8-feet long and between a quarter-inch and more than one-inch thick. The new panels made by the Freres Lumber Company of Lyons, Oregon, can be as much 12-feet wide, 48-feet long and 2-feet thick.

The company announced its new panels in October, capping more than a year of development and performance testing at Oregon State’s Advanced Wood Products Laboratory. “The results look very promising,” said Ari Sinha, assistant professor in OSU’s College of Forestry, who oversaw the tests. “This is a unique product with the potential for creating jobs in rural Oregon.”

Versatility is one of the benefits of the product known as a Mass Plywood Panel (MPP). “These panels can be customized for different applications. Because they have very good compression qualities, they could be used for columns as well as panels,” said Sinha. The veneer manufacturing process enables manufacturers to orient wood grain and to distribute the defects found in smaller trees, such as knots, in a way that maintains the strength of the final product, Sinha added.

Tests in Sinha’s lab focused on the panels’ structural and physical properties such as density, adhesive bonding and resistance to the kinds of vertical and horizontal stresses experienced in an earthquake. Additional tests are planned after the first of the year. Mass Plywood Panels can achieve the performance characteristics of a similar product known as Cross Laminated Timber panels with 20 to 30 percent less wood.

From Phys.org: https://phys.org/news/2016-11-prototype-plywood-panels-world-largest.html

Free Carbon Calculator Shows How Much CO2 Wood Construction Saves

by | Nov 21, 2016 | News

WoodWorks, a proponent of large-scale wood construction in the U.S., launched an updated version of its free carbon calculator, adding more options for buildings made from cross-laminated timber (CLT) and other mass timber products. The addition reflects rising interest in large scale wood building construction.

WoodWorks, which receives finding from the U.S. Department of Agriculture as well as timber companies and forest products manufacturers, promotes use of wood products as a means to store carbon, instead of building materials such as cement and steel that require fossil fuel energy to manufacture, a move that can help reduce greenhouse gases.

“The carbon calculator is a useful tool for building owners and designers who’d like to gain insight on the environmental value of alternate designs,” said Bill Parsons, Senior National Director of the Architectural & Engineering Solutions Team at WoodWorks. “It also provides information that allows them to express the carbon benefits of their wood building projects.”

To calculate the carbon benefits of a wood building, users access the carbon calculator at www.woodworks.org/carbon-calculator and enter nominal wood volume information. The calculator then estimates:

• How much time it takes U.S. and Canadian forests to grow that volume of wood
• The amount of carbon sequestered in the wood products, and
• Greenhouse gas emissions avoided by not using more fossil fuel-intensive materials.
• It also uses the U.S. Environmental Protection Agency’s Greenhouse Gas Equivalencies Calculator to equate the total carbon benefit to number of cars off the road and home operational energy.

From Woodworking Network: https://www.woodworkingnetwork.com/news/woodworking-industry-news/free-carbon-calculator-shows-how-much-co2-wood-construction-saves?ss=news,news,woodworking_industry_news,news,almanac_market_data,news

D.R. Johnson Ready To Serve New Wood Building Market

by | Oct 7, 2016 | News

If the vast potential of timber construction isn’t obvious, a new exhibit at Washington D.C.’s National Building Museum aims to clear things up. Running through May 2017, the USDA-sponsored Timber City is drawing attention to the recent boom in a worldwide movement toward timber construction.

It’s opening up a new market that has been turning the mills at a growing number of wood products companies, including Montreal’s Nordic Structures, Sauter Timber in Rockwood, Tennessee, and D.R. Johnson.

Oregon-based D.R. Johnson Wood Innovations, a subsidiary of D.R. Johnson, specializes in the manufacture of cross-laminated timber (CLT) and glue-laminated beams from Douglas fir and Alaskan yellow cedar. They’re the first U.S. company to receive APA/ANSI certification to manufacture structural CLT panels – and they hope to help grow the U.S. market.

D.R. Johnson is one of only three North American companies certified by the Engineered Wood Association to construct CLT for use in buildings. The company employs 125 at a traditional sawmill and laminating plant, which was recently expanded by 13,000 square feet for increased CLT production. They’re currently fielding calls from hopeful builders, and manufacturing samples to be tested for fire safety and structural quality.

D.R. Johnson says the system for constructing CLT involves assembling prefabricated parts, speeding construction, and paring labor costs. The company partnered with wood processor manufacturer USNR to build a custom panel press for CLT.

From Woodworking Network: https://www.woodworkingnetwork.com/events-contests/event-coverage/timber-construction-exhibition-shines-light-industry

Tallest Wooden Tower In The World Is Almost Complete

by | Oct 5, 2016 | News

Say what you will about wooden construction, it is sustainable. So it’s great that even large structures are now being built out of wood. One awesome example of this type of architecture is Brock Commons, a University of British Columbia student housing tower. It will rise to an impressive 174 ft (53 m) and will be the tallest wooden residential tower in the world once it is complete. Which it very nearly is.

It took just 66 days to build the wooden tower. It’s not quite finished yet though, but once complete it will contain 33 four-bed rooms, and 272 studios, so the 18-floor tower will be able to accommodate 404 residents. The tower was designed by Acton Ostry Architects.

The structure consists of 16 floors of five-ply cross laminated timber (CLT) floor panels, and has a steel-framed roof, as well as a few concrete sections, namely the base and stairwells. The façade of the tower is made of prefabricated panels that had the windows pre-installed. These panels contain 70 percent wood-based fibers with steel stud framed sections, and form a high-pressure laminate cladding.

The construction went remarkably quickly. At first they managed to build one floor per week, but were able to go faster after that, building two or more floors per week. Not including the concrete sections, they’ve been able to complete the entire structure in just over three months, which given the size of the tower is quite remarkable.

The Brock Commons residence was also designed according to LEED Gold certification standards, and will receive this certification once it is completed. They estimate that it will be completed in May, 2017, which is four months ahead of schedule. They are currently installing the steel roof, which they hope to complete in a couple of weeks.

From Jetson Green: https://www.jetsongreen.com/2016/09/tallest-wooden-tower-in-the-world-is-almost-complete.html