Framed Top

Transform a plain top into a stylish surface

Here’s one technique every budding furnituremaker should know: how to make a framed top. A mitered frame adds a polished, professional look to a project, in the same way that a picture frame sets off a work of art. It also offers many practical benefits:

• A frame can make a 3/4-in. or thinner top look much thicker, because the framing members can be thicker than the central panel.
• A frame puts long grain on all four sides of a top, so every side looks the same when the top is finished. In a solid-wood top, the ends often appear darker, particularly if they’re stained.
• A frame may be made from a contrasting wood, adding drama to a top’s appearance.
• A frame may surround veneer laid in a pattern, such as a diamond shape.
• A frame is more durable than thin edging, and can be shaped with a molding.

Generally, a framed top is built around a plywood panel. You can use commercial plywood, of course, but you also have an opportunity to make your own. Why would you want to? Using commercial plywood, you might run into three problems. First, you may only need a small piece, and buying a full sheet can be expensive. Second, you may not be able to find plywood of the same species as the solid wood in the rest of your project, or the plywood’s grain or color won’t match the solid wood. And third, with commercial veneer as thin as it is, you always run the risk of sanding through it, particularly when you level the frame with the plywood.

All of these problems can be solved by making your own plywood, using shop-made veneer. Sure, this takes extra time, but not a lot of extra expense. The top will match the rest of your project, because you’ll make it from the same batch of solid wood. The veneer can be up to 1/8-in. thick, so there’s virtually no chance you’ll sand through it. Thick veneer is much more durable than thin, commercial veneer. For hard-wearing surfaces, it will hold up much better to scratches and dents.

Make The Veneer

Begin by milling the wood into boards with parallel faces and edges. If you’re using 4/4 (1 in.) lumber planed 7/8 in. thick, you should get three or four veneer pieces from each board. Crosscut the boards 2 in. longer than the final panel. Make enough veneer to cover both sides of your top.

Install the widest blade your bandsaw can handle. It should be quite coarse, with 3-4 teeth per inch. Position your fence 3/16 in. away from the blade and make a test cut with a 12 in. long piece of plywood, face side down. If the cut is straight, you’re good to go. If the cut wanders, you’ll have to adjust your fence to compensate for the blade’s drift angle.

Make a box-style guide block to steady the boards as you saw (Photo 1). Together with a tall fence, this device helps make the sawn surface as smooth and straight as possible. Make the box about 6 in. long and as tall as the boards. To position the box, temporarily clamp one board to the fence. Push the box tight against the board and clamp the box to the saw table. Remove the clamp holding the board to the fence and try sliding the board in and out. It should move freely, but not wiggle.

Saw the veneer. After you’ve cut one piece from each board, run the boards through the planer to smooth the sawn surface. Re-position the guide block box and re-saw the boards again. As the pieces come off the saw, pile them in a stack. When you’re done, weight the stack with plywood or blocks to keep the pieces flat.

Why Not Use Solid Wood?

Gluing thick, mitered edging all the way around a solid-wood top is a potentially disastrous mistake. It bucks one of the most basic rules about working with wood: you have to allow it to expand and contract. Ignore this rule and you run the risk of joints failing or wood cracking. That’s why it makes sense to use plywood rather than solid wood for a framed top. Plywood doesn’t expand or contract, for all practical purposes. Here’s how the wood-movement rule applies in this situation:

Make The Panels

The next step is to glue the veneer pieces together, making two panels, one for each side of the top. Test the fit of the edges before you glue– they may need to be straightened once more on the jointer. Place the jointed or planed sides up, butt the pieces tight, and tape them together (Photo 2).

Turn the pieces over and run a narrow bead of glue down each joint (Photo 3). Lay the assembly flat on the bench and push down each piece so that the joints are even. Scrape off the glue squeeze-out and weight the panel (Photo 4).

If your sawn surfaces are very smooth and exactly equal in thickness from side to side, you can glue the sawn side down to the substrate as it is. For the best bond, use epoxy (which fills gaps), but yellow glue should also work fine.

If your sawn surfaces are a bit uneven, or unequal in thickness from side to side, you’ve got two choices. You could use the panels as they are and epoxy them to the substrate, or, better yet, use a drum sander to smooth both sides (Photo 5). Sanding saves a lot of evening-up work after the top is assembled, because the top surface will be as uniform as commercial plywood. Sand until the panels are 1/16 to 1/8 in. thick.

Make A Veneer Press

Gluing the veneer requires a fairly elaborate setup (Photo 6) and a sufficient number of clamps, or a vacuum bag. If you make a press, the main trick is to get adequate clamping pressure in the middle of the panel. If the panel is less than 16 in. wide, straight, stout crossbearers work fine. If the panel is over 16 in. wide, make a slight crown on the side of the bearer that pushes on the caul, so the bearer flattens out from the center as you apply clamping pressure. Alternatively, you can put shims under the center of a straight bearer. In either case, make enough bearers to space them about 6 to 8 in. apart.

Medium-density fiberboard (MDF) makes an excellent substrate because its surfaces are smooth and flat. Cut the MDF and two cauls the same length and width as the veneer panels.

Use a roller to apply a thin, even layer of yellow glue to the MDF (don’t put any glue on the veneer). If you work fast, you can glue both panels to the substrate in one shot (Photo 7). The builder’s paper is optional. It captures glue squeeze-out, so the veneer can’t adhere to the cauls.

Allow the glue to dry overnight, then remove the clamps. Cut the panel to final size.

Fit The Edging

Make four pieces of edging; two of them should be about 1/4 in. extra-wide. If the top is rectangular, the extra-wide pieces should go on the short sides. Miter the long pieces to fit the veneered panel, then cut biscuit slots about 12 in. apart all around the panel and along the long pieces.

Cut biscuit slots in the mitered ends of the edging. You can use smaller, shorter biscuits here or cut larger biscuits to a shorter length. When cutting slots in miters, use a scrap piece of edging to balance your plate joiner. Glue on the long edging (Photo 8).

Miter both short pieces. If you can cut them exactly the right length, great! That’s hard to do, though, so it’s easier to start out with the pieces a little short (Photo 9). Here’s where the extra width comes into play. Adjust your jointer to take a minimal cut, then joint the inside edge of each piece (Photo 10).

Test their fit after each pass. You’ll see that they’ll gradually come closer to fitting the opening. Because the pieces are mitered, each cut on the jointer increases the length of their inside edges. When the pieces do fit, cut their biscuit slots. Mark what remains of their excess width (Photo 11) and remove this waste using the jointer. Glue the pieces.

Having used biscuits for alignment, the edging and top should be close to level with each other, but not perfect. Make all the pieces flush by using a random-orbit sander, drum sander, No. 80 scraper, or a hand plane (Photo 12). The thick veneer makes this job much less stressful–there’s really no chance you’ll accidentally sand or cut through it!

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