I've been pondering the relationship between a bow's efficiency and cast over the past year. I recall from other posts as well as from discussions in the Traditional Bowyer's Bible series that shorter bows are more efficient, that they deliver a larger percentage of stored energy into an arrow. I also recall a conversation here on the PA forum where someone, I can't recall who, said that hysteresis was internal friction caused by there being lots of non-working wood between the outer fibers working in tension and compression.
I wonder what role the reduction of hysteresis plays in increasing the efficiency of shorter bows? In my head I've convinced myself that shorter bows enjoy greater efficiency because their limbs can be thinner for a given draw weight and draw length then would be the limbs of a comparable bow that was longer. These thinner limbs have less non-working wood between the working back and belly fibers, so there is less internal friction and therefore greater efficiency. The observation of thin-limbed bows being more efficient seems to hold with modern fiberglass bows, which have wide, thin limbs compared to many wood bows, and tend to shoot faster.
I wonder, then, if someone made a wooden bow with limbs wide enough that the limbs ended up the same thickness as those of a fiberglass bow of comparable draw weight and length, would that bow achieve greater efficiency and cast? What do people think about this idea?
I'm currently working on a hard maple pyramid bow that I purposely made far wider than I normally would, over three inches wide at the fades, and am interested to see how it turns out. I'll let folks know how it turns out.
