11

Assuming one has the necessary tools to mill their own boards, what are some guidelines to consider when determining the thickness of boards to use in the various parts of a project?

For some context, my wife has asked me to build a children's art table similar to this:

Art Table

Now I can probably guess at the various thicknesses used here from the picture, but I'm more interested in how I would arrive at this on my own. At what point would I need to use 3/4" boards over 1/2" boards, etc. My initial plan was to use a combination of Baltic birch plywood and maple.

If it helps answer the question, assume that cost and weight are factors but so is longevity.

12

The Sagulator is a good quick calculator you can use to work out the type and thickness of material for any shelf or tabletop spans. It also factors the type of material into the load-bearing capacity. Consider the maximum weight any load-bearing horizontal member is likely to hold, and confirm that your design will be able to hold that much without too much deflection.

Also consider static loads (e.g., putting a heavy box on a shelf and leaving it there) vs. dynamic loads such as people dropping things on top of the structure, leaning on it, jumping on it, etc. Static loads can warp a shelf or table over time, as you probably know if you've ever stored heavy books on a particle board bookshelf. But on the other hand, dynamic loads can involve someone plopping heavily into a chair, in which case you need to be able to support significantly more than just the weight of the person--like when you first step onto a bathroom scale and the reading zooms way past your weight before settling on your actual weight.

The tried and true method is to look at other pieces similar to those you want to build, and use those measurements as the starting point for your own piece. Aprons and other reinforcements can add a lot of strength. You can always beef up load-bearing components, but also remember to consider the relative sturdiness of the materials you're using vs. the materials someone else used. You can plug both materials into the Sagulator to see how they compare, given the same dimensions.

  • 2
    Love the link. Ill be utilizing that. – James May 11 '15 at 18:11
  • Live loads also includes children climbing on it for fun and/or as a step ladder to something higher... – FreeMan May 11 '15 at 20:35
  • 3
    The point about aprons cannot be stressed enough. Aprons and other forms of gussets and built-up beams (think I beams) are much more powerful ways of gaining rigidity than simply increasing thickness. A huge reason for using thicker stock is simply for aesthetics and proportion, since structural rigidity can be achieved through other means. In the picture above, it looks like the whole thing is built of 1/2" bb ply, with the exception of the chair legs. This is because of the way aprons and other members are used to reinforce the structure. – aaron May 11 '15 at 23:22

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.