linyiyuping@hotmail.com +86-15605390885
English 
Views: 1 Author: https://schoolofwoodwork.com/veneer-the-background-basics/ Publish Time: 2022-03-06 Origin: https://schoolofwoodwork.com/veneer-the-background-basics/
Veneer matching is a crucial process in woodworking that transforms thin slices of wood into stunning, full-sized panels. By expertly joining individual veneer leaves, woodworkers can create a wide variety of patterns and visual effects. This guide explores the most common veneer matching techniques, panel matching methods, and key information on veneer thickness and substrates.
The splicing technique used determines the final pattern of the veneer sheet.
Book Match: The most popular method, where consecutive leaves are flipped open like pages in a book to create a mirror-image effect. This highlights the grain's natural symmetry and is perfect for a balanced look.
Slip Match: Leaves are slid side by side, like shuffling a deck of cards, to create a repeating grain pattern. This is often used with straight-grained veneers for a clean, consistent appearance.
End Match (Book-and-Butt Match): Consecutive leaves are book-matched, then paired and flipped to create a four-piece pattern. This method is ideal for showcasing swirly grains, burls, and other irregular features.
Reverse Slip Match: Alternating leaves are slipped and flipped end-to-end, breaking the uniform repetition of a traditional slip match. This technique is great for adding character and is often used in curved applications.
Random Match: Pieces are assembled without regard for grain or color consistency, creating a rustic, varied, and unpredictable appearance.
Once veneer sheets are created, they can be matched into larger panels.
Center Match: Veneer leaves are trimmed to equal sizes and centered on the panel, creating perfect horizontal symmetry. This premium method is visually pleasing but requires more veneer, increasing cost.
Balance Match: Leaves are of equal width but are not centered, offering symmetry without precise alignment. This is a good middle ground between center and running matches.
Running Match: Leaf widths vary naturally and are assembled to fit the panel without regard for horizontal grain alignment. This non-symmetrical approach is the most efficient and cost-effective.
Veneer thickness varies by the mill and purpose, typically ranging from 1/16” (0.063”) down to 1/64” (0.015”). Thicker veneers are generally preferred for high-quality, custom pieces, while thinner veneers are used in more budget-friendly applications.
A substrate is the stable surface to which veneer is glued. The best substrates are those that resist expansion, contraction, and warping.
MDF (Medium-Density Fiberboard): A top choice due to its smooth, flat, and highly stable surface. It's affordable and bonds well with veneer glue.
Plywood: A lighter alternative to MDF, though it can be prone to warping.
Particle Board: A cost-effective option, but requires proper sanding for a strong glue bond.
Solid Wood: Less common due to concerns about stability and warping.
Understanding these concepts empowers you to make informed decisions for your next veneer project. Explore these techniques and materials to unlock endless creative possibilities and bring your vision to life!
What Is Veneer Matching? Techniques and Patterns
All veneers, except the rotary cut veneer, to have full sized panels must be assembled into large sheets or “spliced” together. This process is known as veneer matching, and different matches produce a specific pattern in the finished panel.
Here are some of the types of splicing that you will see:
Book matching is the most common technique and is often used with plain, quarter or rift sliced veneers. This occurs when consecutive leaves of veneer are flipped open facing each other like pages in a book. This creates a mirror image of the previous leaf. The symmetrical pattern accentuates the grain, figure, and decorative characteristics of the log. Book matching can create color variation and can produce alternating “tight” and “loose” faces that reflect light and accept stain differently – often producing a “barber pole” effect.
Consecutive leaves of veneer are slid or “slipped” across each other and joined side by side, like sliding a deck of cards and creates a repeating grain pattern across the panel. Slip matching is a common technique that is often used with quarter and rift cut veneer to provide a clean straight grain look. In veneers with a straighter grained the joints won’t be prominent, but some rotary cut veneers, especially those that include both heart and sap wood, can highlight the flitch joints.
Two consecutive leaves of veneer are book matched and the next two are flipped, creating a four-piece end match (also called a book-and-butt match). End matching creates beautiful patterns and accentuates swirly grains and the irregular characteristics of veneer. This method makes good use of shorter veneer leaves and is often used with burls and crotches.
Alternating leaves of veneer are slipped across each other and every other leaf is flipped end to end. Reverse slip matching creates an alternating grain pattern that breaks the repetitive “marching” pattern of the traditional slip match. It balances the character of the veneer and is often used where curved shapes might cut off the grain in peculiar ways.
Random Matching assembles veneer flitches without regard to grain pattern or color. Visual continuity is not guaranteed, though some species are naturally more uniform than others.
Once a sheet of veneer has been matched into a panel you can then match each of the panels to form a pattern.
All veneer leaves are trimmed to the same size and applied to the panel in patterns using an even number of leaves. Horizontal symmetry results from centering the veneer face on the panel and then trimming the edge. Center matching creates the most symmetrical pattern in architectural paneling and is often considered the most pleasing match. It is typically more expensive as the trimming and centering requires more veneer than other panel matching techniques. Panels may be sequenced and numbered for adjacent use.
The width of each veneer leaf used is the same giving a more symmetrical look than running matched panels. In balance panel matching the face is not center balanced and an odd or even number of leaves may be used. Grain may change between panels over long runs as the characteristics of the veneer change through the use of the flitch. Panels may be sequenced and numbered for adjacent use.
A natural change in the veneer leaf width is common and acceptable and each veneer face is assembled from as many veneer leaves as necessary producing a non-symmetrical look. The pattern starts on one side of the panel and leaves are added next to each other until the edge of the panel is reached. Each veneer face is assembled from as many leaves as necessary and horizontal grains are generally not matched.
Different mills produce veneers of varying thicknesses but it is typically 1/16th of an inch thick, ranging all the way down to 1/64th of an inch thick. The thinnest veneers are used in manufactured inexpensive furniture. On the other hand, woodworkers use the thicker veneers to make higher grade custom furniture pieces.
Mills based in the US will generally cut to the following thickness:
rotary cut range between 0.125” (1/8”) and 0.026” (1/38”)
plain sliced are generally 0.028” (1/36”) or 0.024” (1/42”)
rift cut or quarter-sliced veneers thicknesses range between 0.063” (1/16”) to 0.020” (1/50”)
Veneers must be glued to something – that’s a substrate!
Technically, any smooth surface that can be glued to can be a substrate for a wood veneer. The substrate is the material that the veneer is glued on to. The best substrate is the one that is the most stable. This means that it does not expand and contract with temperature or moisture and is as flat as possible.
In general, common veneer substrates are:
MDF – is smooth, flat, and incredibly stable. It is also relatively inexpensive and consistent in its makeup. Its surface readily accepts being glued to veneer
Plywood – Although plywood is not as good a choice as MDF it can be used as well. If weight is an issue, for example on large doors, baltic birch plywood can be used instead of the heavier MDF. However, plywood can warp, especially if stored improperly, and may have voids within its core that you may not see until it is cut
Particle board – Particle board is also a good substrate. However, if it has a melamine surface a proper glue bond cannot be applied to this surface. It will need to be sanded first.
or other less expensive pieces of wood such as poplar or pine.
