A fun and maybe dumb idea: One or more versions of the experiment bow here will be given a poor-man's horn belly:
When a puddle of hide glue is allowed to fully dry it's surprisingly horn-like. If applied in successive coats to a bow belly the bow becomes substantially stiffer. And since hide glue is about as elastic as horn it should be able, like actual horn, to carry much or most of the compression load and store much or most of the compression energy, protecting the wood belly in the process.
If the belly, now core, is an especially light wood, when then pulled into reflex and sinew backed, an especially light and high-stored-energy bow should result.
I'm just starting to play with this. Maybe others would like to also, and report their results. A dumb part of the idea is that hide glue is prey to moisture, so a glue belly would need special protection.
Glue can be brushed on, but only thin coats result, hours of drying time needed so the new coat won't melt the earlier one. One way to speed the process and insure thicker and more uniform coats is to set a mostly-open-space fiber mesh down and saturate it with glue. It's not paleo, but to speed testing, a separated, gossamer thin strip of toilet paper does the job, several now-thicker coats allowed at the same time. The wood fiber is maybe 5% of each layer's mass, does no work itself and prevent no work from being done.
Questions and comments and arguments welcome.
Side view of 1/2” thick redwood bow limb, the thin brushed-on dried glue belly at top.
