Ever since mankind began building and furnishing interior spaces, we've been trying to maximize the yield and performance of the natural materials that go into them. Wood—being one of the most universal and easy to work with building materials (not to mention one of the most beautiful)—has been "value engineered" since the beginning of recorded time.
We know that the Egyptians sliced logs to create veneers and laminated wood panels because fine inlays of ebony and ivory were found in Tutankhamen's tomb. Wood, apparently, was considered precious enough in ancient Egypt to accompany the king into the next world. We also know that Chinese craftsmen sliced wood and glued layers back together to build furniture a thousand years ago, and early iterations of modern plywood were created by English and French in the 17th and 18th centuries.
The 1905 World's Fair in Portland, Oregon, was the impetus
for the very first industrially produced plywood panels. Portland Manufacturing Co.'s three-ply panels were instantly in demand from door, cabinet and trunk manufacturers. The introduction of waterproof adhesives opened up new markets for plywood in housing exteriors, interiors and floors—including troop barracks in the major theaters of World War II. Veneer-core plywood was even used to build some of the fighter planes that won that war.
ENGINEERED TO PERFORM
For construction and furniture fabrication, plywood is a vast improvement on natural wood. By slicing lumber, or timber, into thinner slices of veneer and recombining them, we are able to use lower grades or lesser species of wood in the core for structural strength, and save the more decorative species and higher "face" grades for architectural and furniture surfaces. Compared to solid wood, sliced veneers exponentially increase the available square footage of precious woodgrains.
The layers of veneer, usually less than 1/8-inch thick, are glued together so their respective grains alternate at right angles from layer to layer. This "cross-grain" construction gives the finished plywood panel balanced strength and stiffness throughout its length and width; improves dimensional stability; increases screw-holding ability; and reduces wood's natural tendency to
warp and split by distributing flaws and imperfections. Plywood is usually manufactured with an odd number of layers so the grain on both faces runs the same direction, as it would with solid wood.
There two general classes of plywood: construction and industrial plywood; and hardwood and decorative plywood (covered by separate standards). Construction and industrial plywood is covered by the National Institute of Standards and Technology Product Standard PS 1-95. Hardwood and decorative plywood is covered by ANSI/HPVA HP-1-2004. Each standard recognizes different exposure durability classifications based primarily on the moisture resistance of the glue and the grade of veneer used. [See sidebar articles for further discussion on grading product standards.]
DECORATIVE HARDWOOD PLYWOOD—GETTING TO THE CORE
Decorative hardwood plywood cores are mostly veneer (66 percent of the
panels sold in North America), but may also be MDF (16 percent), particleboard (13 percent), or agrifiber and other materials.
Veneer core is made from multiple plies of veneer peeled from quality logs with limited aesthetic characteristics, and glued together with the grain direction alternating at right angles. Compared to MDF (medium density fiberboard) and particleboard, its advantages include higher strength, lighter weight (typically 70 pounds at ¾-inch thick), and excellent screw-holding properties. Disadvantages include potential variation in panel thickness; core textures may telegraph through the surface layer; and the edges must be covered.
MDF cores are wood chips steamed and refined to fiber bundles, bonded, formed into a mat, pressed and then sanded to a desired thickness. Advantages include a smooth surface, uniform thickness, and reasonable screw-holding ability. Disadvantages would be that it's heavy (100 pounds at ¾-inch thick), not as strong as veneer core, and the perception that it is not real wood.
Particleboard cores are made from wood chips ground into small particles, bonded, mat formed, pressed and sanded to a desired thickness. Advantages include a smooth, uniform thickness and reasonable screw-holding ability. Cons would be that it's heavy (100 pounds for ¾-inch panel), not as strong as veneer core or MDF, and again, the perception that it is not real wood.
It should be noted here that both particleboard and MDF utilize wood fiber left over from other lumber and woodworking processes—materials that would otherwise be landfilled or burned.
Specialty cores are also available. Combi-core panels use thin MDF below the faces for higher surface quality and dimensional stability, and veneers at the center for strength and weight. Multi-ply cores use more plies of thinner veneers to provide a European-style decorative edge.
Plywood thickness can range from 5/32 to 1-½ inches, with ¾ for 50 percent of U.S. domestic production. Typical panel dimensions are 4 foot by 8 foot, although you can also specify 4 foot by 9 foot, 4 foot by 10 foot, and in some cases 5 foot by 8 foot. The woodgrain typically runs the direction of the panel length, although special counter-front panels are available with grain running width-wise.
Hardwood plywood is a practical, responsible way to specify real wood for furniture, fixtures and architectural millwork. Popular species include red oak, birch, maple, cherry, ash, pine, mahogany, walnut, white oak and teak, but you can get almost any wood you want. Some suppliers even offer prefinished and ready-to-paint panels, and most recommend their panels for use in vertical and low-wear horizontal surfaces.
The face grade ratings of different woods and veneer cuts vary, given the characteristics unique to each species. The character of these species is further interpreted by how the veneers are cut from the logs, and how they are recombined.
First, veneers are cut from logs in several different ways:
- Rotary-cut veneers: The entire log is peeled, producing a continuous
ribbon of veneer.
- Plain-sliced veneers: The log is cut in half, lengthwise. Each half is
then sliced lengthwise producing a veneer with a unique grain pattern.
- Rift-sliced veneers: The log is cut into quarters, lengthwise, then sliced
at a 90-degree angle to the grain. This produces a fine pencil stripe effect. Both plain- and rift-sliced veneers are reserved for high-grade "fancy" panels.
- Half-round sliced veneers: This is a variation of rotary cutting. This
effect results from the log being mounted off center in the lathe so only one side of the log is sliced at a time.
- Quarter-sliced veneers: The quarter log is mounted so the growth rings strike the cutting knife at right angles. This produces a series of stripes in the veneer.
The way sheets of veneer are then spliced back together (or left whole) further determines the look of the finished panel.
- Whole-piece veneers: Continuous pieces of veneer are peeled from
a log using a rotary process.
- Book-matched veneers: Every other strip of veneer is turned over, producing a grain pattern that is matched at the veneer joint.
- Slip-matched veneers: Each strip is laid out, side by side (without
turning over). This produces a repetitive pattern.
- Spliced veneers: Several pieces of veneer varying in width are glued
together to form a whole sheet. The way they are laid out determines the final look of the veneer.
GREEN IS A GIVEN
Designers are drawn to wood for several reasons. It evokes a rich heritage of fine architectural millwork and furniture. The character of the grain adds visual interest without being distracting. It can be finished in any number of gorgeous, saturated colors. Up close, no other material has quite the same depth and life. It is familiar, even comforting, but never boring.
But most of all, wood is natural.
As environmentally friendly products become the new norm, wood's bona fides as a natural material carry more and more weight. Trees, of course, are a renewable resource, and some suppliers now offer FSC-certified hardwood plywood.
To turn wood into an engineered panel, however, some type of resin-based binder or adhesive must be introduced. This is where things can get a little sticky.
The most economical, durable, reliable and easy-to-handle wood
adhesives have historically been manufactured with formaldehyde. Formaldehyde (CHOH or CH2O) is a colorless, pungent gas and common volatile organic compound (VOC). It is used as a component in many common products, including disinfectants and preservatives, clothing and textiles, as well as plastics and coatings.
When reacted with urea, formaldehyde produces a hard thermoset resin. These urea-formaldehyde (UF) glues are commonly used in permanent adhesives such as those used in hardwood plywood, particleboard and MDF. UF glues can "offgas" for a period of time after manufacturing, although surfacing a panel on all sides can significantly reduce emissions.
Formaldehyde occurs naturally. People and plants, including trees, produce small amounts of formaldehyde on a daily basis. In abnormally high concentrations, however, it has been linked to cancer and respiratory maladies in humans—a growing concern as more people spend more of their lives indoors.
Consumers and the design community have demanded better indoor air quality (IAQ), and government regulations have codified increasingly stringent standards, most notably in the CARB Phase 1 and CARB Phase 2 regulations. [See sidebar for more on CARB.]
Plywood and composite wood manufacturers have responded by offering panels that emit formaldehyde levels well below current and pending IAQ standards, including some made with "no-added urea-formaldehyde" (NAUF) glues.
Examples of NAUF adhesives include:
- Poly vinyl acetate (PVA), aka white glue
- Already in heavy use within window and door industries; good
for face lamination
- More expensive than UF, especially in veneer core construction
- No composite cores are manufactured with PVA
- Similar to UF in terms of workability
- Price competitive with UF in veneer core construction
- Soy-bonded particleboard now available
Polymeric methyl diphenyl isocyanate (MDI)
- PF resins are used to make circuit boards and pool balls; they
are the earliest form of plastic resin (e.g., Bakelite, most popularly
used in vintage tabletop radios and appliance knobs, is a PF resin)
- Different chemistry than UF (all formaldehyde is "tied up" chemically)
- Dark color and other factors make PF suitable only as an adhesive
for veneer-core blanks, MDF, and particleboard cores
- PVA or soy typically employed as a decorative veneer lamination
adhesive for NAUF construction
- Commonly known as "super glue"
- Requires careful handling as it is toxic in its uncured form
- Well-established market for MDI-bonded MDF
- Agrifiber substrates utilize this adhesive; however, supply of these
blanks for lamination is limited
Decorative hardwood plywood producers are also responding to A&D specifiers who are striving for LEED certification of their projects. The total number of points available from plywood specification depends on the core type, decorative veneer species, and where the panel is manufactured.
Relevant LEED points available:
IEQ 4.4 Low Emitting Materials—Composite Wood and Agrifiber Products
Purpose: Reduce quantity of odorous, irritating and/or harmful
contaminants for comfort and well-being of occupants.
MR 4 Recycled Content
2-3 Points possible with innovation
Purpose: Incorporate recycled content materials to reduce impacts
resulting from extraction and processing of virgin materials.
MR 5 Local Materials
2-3 Points possible with innovation
Purpose: Support use of indigenous resources and reduce environmental
impact of transportation.
MR 7 FSC-Certified Wood
1-2 Points possible with innovation
Purpose: Encourage environmentally responsible forest management.
Decorative hardwood plywood offers unmatched aesthetic value for commercial and residential interiors and furniture, and the new NAUF materials on the market have struck a resonant chord with the next generation of manufacturers.
From traditional to contemporary, commercial to residential, decorative hardwood plywood brings the timeless elegance of real wood to any specification. And with NAUF and FSC-certified products now on the market, you don't have to sacrifice beauty for environmental responsibility.