by Eric Meier

Disclaimer: I am neither a bowyer/archer nor a materials scientist/engineer. The data and ideas presented in this article are by no means meant to be considered authoritative or precisely correlated to real-world situations. The purpose of the article is simply to foster imagination and exploration in the area of bow woods and what does/does not constitute a good bow wood.

Archery bows present a somewhat unique challenge in finding the right requirements for the best wood. In the simplest and crudest terms possible, the wood should be able to bend, but not break. With all of the data available on the Wood Database, there’s no single measurement that directly indicates a wood’s ability to bend easily without breaking. Instead, it is primarily a combination of two values: the wood’s modulus of elasticity (also known as MOE), and the modulus of rupture (also known as MOR).

Again, dealing in the simplest terms:

The modulus of elasticity (MOE) measures how easily a wood will bend, (the higher the number, the more stubborn and stiff it will be). The modulus of rupture (MOR) measures how easily the wood will break, (the higher the numer, the harder it is to break or rupture).

In terms of looking at the raw mechanical data of woods, the best bow woods tend to be those that have a low MOE and a high MOR. (Stated another way, the best bow woods tend to be those that will bend easily, and not break.) It’s of little advantage if a given wood scores well in one area, and poorly in another (i.e., a very low MOE or a very high MOR). What is most important, regardless of how low the MOE may be, or how high the MOR may be, is the ratio of the MOE to the MOR; it must be easy to bend AND hard to break.

Given the rationale and requirements, an equation can be formed to roughly assess a wood’s suitability for bow use: (MOR/MOE) * 1000. (The added factor of 1000 is simply to bring the number to a more manageable size and avoid dealing with tiny .00xx decimal values.) For lack of a better term, this ratio will simply be referred to as the wood’s “Bow Index.”

Analyzing all the woods in the Wood Database for their Bow Index, the following results are obtained: