How to Flatten Boards With Just a Planer
In woodworking, there are often many routes to reach the same destination.
This is one way to flatten* large boards using primarily an electric thickness planer (without the help of a jointer).
In order to flatten a warped, twisted, or cupped board, a common approach is to first use a jointer to create one perfectly flat face.
Then you run the board through a thickness planer with the flat face downward, and the planer makes the top face parallel to the bottom.
However, for boards or slabs that are too wide for a jointer (but still narrow enough to fit through a thickness planer), the approach demonstrated in this Instructable is one way to perform both steps needed to flatten boards using just a thickness planer, rather than using a jointer AND a planer.
*The term "flatten" as I'm using it here means: make two boardfaces perfectly parallel to one another by removing warps, twists or cupping.
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Step 1: Lumber and Overview
I picked up a bunch of old oak beams recently, and have been using the wood for various projects.
In order to use the material, I've been splitting the beams in half using my bandsaw.
However, the resulting boards all had twists and/or cupping, so they were flattened using the process shown in this Instructable. I'm not sure what these boards were used for previously, but they have a lot of character!
Here's the gist of this Instructable:
- To flatten a board with just a thickness planer, secure the board to a perfectly flat and rigid support structure (I show how I made mine in the following steps)
- Run it through your planer until the topside of the board is flat
- Remove the board from the support structure
- Run the board through the planer with the now-flat side down
This Instructable is my version of a pretty common board-flattening solution; if you do a bit of search-engine-ing, you'll find several great versions.
Step 2: Support Sled
I built a support box using baltic birch plywood.
A simple box like this is guaranteed to stay perfectly flat and will not bow or warp, and creates a lightweight rigid sled to attach boards for planing. Alternately, a plain piece of plywood or MDF could be used as long as it stays perfectly flat and becomes sufficiently rigid when the board to be flattened is affixed to it.
Using a table saw, I cut two 60" lengths of 3/8" plywood that were just narrower than the opening of my planer (in my case, the width capacity is 12 1/2", so I made these pieces 12 1/4").
Two 2" wide strips were then cut from 3/4" plywood.
I used glue and pneumatic brads to fasten all these pieces together as shown.
This created a lightweight, but perfectly flat box.
To finish the box, I sprayed it with a few coats of spray lacquer, followed by a light sanding with 220 grit sandpaper. I then waxed the two larger faces with furniture wax (so either side could be used face down, but this is also helpful to remove masking tape that's used as well - which is shown later).
Step 3: Level the Workpiece
The board to be flattened is placed on the box and made as level as possible using shims to fully support it. I use sample laminate pieces which you can typically get for free from the kitchen section at home centers and hardware stores.
This was all done on top of a few strips of painters masking tape.
Since this board was so beefy, I felt comfortable only supporting it at the ends. For a thinner board where it is likely to flex in the middle under the pressure from the planer's cutter head, you will want to shim and secure the entire length.
The goal is to affix the imperfect board firmly to the support structure so it cannot move or flex at all.
Step 4: Hot Glue the Board Down
The board is now fastened securely in place using hot glue. I have this glue gun, and it's a beast!
The glue holds the board firmly in place while planing, but is easy to remove once the top face has been planed.
Step 5: Plane the Top Face
The top face of the board is now planed using the thickness planer.
You only want to remove a tiny fraction at a time. In my case this was especially important because the middle section of the board was not shimmed, so it was still possible that any extra pressure from the cutter head could have made the board bow downward, resulting in an unflat cupped board.
Step 6: Remove Glue
The hot glue can be removed with the help of a chisel. You can pull the glue off of the taped surface, or just remove the tape and the glue should come with it.
Step 7: Plane the Other Side
Now place the newly-flat boardface downward, and plane the remaining side.
My boards were all in pretty rough shape as you can see!
Step 8: Done!
My boards were all brought to the same thickness and then were ready to be used for other projects.
Thanks again for reading!
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45 Discussions
1 year ago
This leveling platform is a good example of a tension torsion beam. A very good idea.
1 year ago
great article thanks for this one
For all of you wanting to just put it on a flat board the longer you need it the more it will flex
We’ve all done this pick up a piece of plywood from the end and it bends like a wet noodle. And the narrower you make it the more it flexes. but put two rails in each side and you’ve just built something you could drive you car on and it won’t flex. Just my opinion.
1 year ago
How does this technique achieve parallel surfaces? I assume that the gap to the box allows the oak to flex, but how does this help? I seem to be having a simple misunderstanding of the concept.
I need to do this soon, so nice timing!
Tip 10 months ago
Ooh! I have a tip: Try putting isopropyl alchohol on the hot glue when you want to debond it. It's not guarenteed to work on wood (grains and mechanical bonding) but in the past I've found it works like seeming literal magic to delaminate hot glue joints. If it does prove effective on wood you can go more ham on hot glue knowing you can easily remove it with isopropyl alchohol :)
Tip 10 months ago
Great 'ible and a great method. I've been doing this for a while. Two comments to enhance, possibly:
1) Once in a while the glue will break free, usually by pushing the board backwards on the sled. I added a thin cleat at the back end of the sled to keep the board from moving backwards to prevent this.
2) you can make a simple torsion box sled simply by gluing thin sheets of plywood to front and back of a scrap piece of foam insulation board. Glue them on your flattest surface.