Badger, wow that sounds like quite a bow you made there. Props on making one like that which failed gradually rather than explosively. What was it made of? As I'm sure you're aware, your design theories there have a lot in common with the Turkish bows I talked about. Tiny working areas and long rigid levers.
Are they that close to 200 at 10 grains per pound?
Yes, according to that article. They got quite scientific with it, you can read all about their methodology. With lighter arrows they got as fast as 357fps, and have several reasons to think in better conditions the bows could have shot faster. Computationally this means (given good arrows) they're creeping up on the historical Turkish flight record of 930 yards.
First of all, I am in no way suggesting that highly reflexed bows are not good at all! I sure have made several highly reflexed bows and they where definitely the fastest bows I ever made. However I found that they break down in speed over a year or so and lack the extreme smoothness of highly deflexed bows. This is especially true for longbows. (My recurves usually shoot smoother due to string angle etc)
Now most of my rd bows shoot 175+ and some even in the 180ties. The highly reflexed recurves I made shoot 192 and one even 195 but they did drop down to 185 after a few 100 shots. My first few reflex/deflex bows still have the exact same poundage as the had when I made them and had thousands of shots over the last two years.
Now over here we al shoot either target or 3D courses so accuracy is favourable above extreem speed, the reflex/deflex gives me really good accuracy, no handshock, and if done correctly also more then enough speed. Another important aspect of the deflex is that because of the lower strain at brace, the bow still shoots the same after long hours of brace time, this really helps for 3D competitions which can take all day.
Sounds like we are in complete agreement then.
I think there is some confusion/mixing up of design and materials in this thread.
Horn sinew composites are the shape they are because it suits the materials.
I would look at this a little bit differently. Of course design will differ for different materials. Just as materials can be quite different from each other, ideal designs for materials can be quite different from others. If you start with a certain material as an unchangeable given, and set out to arrange that material in to the best arrow shooting device you can, you will eventually arrive at your favorite design for that material. And if you start out with different materials, you will arrive at different favorite designs.
I don't think this is what people were up to when they developed the Asiatic composites. Material wasn't an unchangeable given. They weren't suffering from a lack of wood (or bamboo) and were forced to figure out how to make do with mostly sinew and horn. Their unchangeable givens were
concepts. Concepts like, all other things being equal, light limbs shoot faster. Short limbs are lighter. Reflex reduces stack and increases speed. Etc. Then they went out and figured out which materials would allow them to take those concepts to whatever extreme they could make possible. And it resulted in the hardest shooting bows the world had ever seen. With these bows (and horses) they overran pretty much anyone who stood against them, from the ancient Romans to the medieval Europeans, and made the largest continuous land empire in history.
So with the original question being, "why so many modern reflex/deflex bows?", I'm adding to that, saying that I'd be curious to see more modern companies taking these proven concepts to whatever extreme they can with whatever modern materials they can.
I'm all about traditional bow making, and that comes from my interest in history. But I'm also curious... what could a modern materials bow reflexed like this do?
I'd love to see.
