Author Topic: Bow design and mechanics testing with PVC models  (Read 10461 times)

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Offline PatM

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Re: Bow design and mechanics testing with PVC models
« Reply #30 on: March 17, 2016, 03:08:26 pm »
  The mechanics of a limb with a static tip seem like they have less disruption of their power stroke.
 You can find lots of discussion regarding the way a longer working limb has a "bulge" or ripple in the limb on the return.
 Sometimes the wording that people choose to try to describe these actions may not be wholly accurate though.

Offline willie

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Re: Bow design and mechanics testing with PVC models
« Reply #31 on: March 17, 2016, 03:57:33 pm »
Quote
seem like they have less disruption of their power stroke


Pat- Could you explain better what "disruption of power stroke" is?

Offline PatM

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Re: Bow design and mechanics testing with PVC models
« Reply #32 on: March 17, 2016, 06:33:33 pm »
If you look at slow motion videos you can see some interesting stuff going on as the limbs return. These  movements of the limb have various types of impact on the energy delivery.
 I'm not going to speculate exactly how.
 It can all be explained mathematically though. ;)

Offline willie

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Re: Bow design and mechanics testing with PVC models
« Reply #33 on: March 17, 2016, 06:59:13 pm »
I have seen videos that show limbs flexing in mid- limb after the bow reaches brace height, but never one showing a limb with static tips, just before....

a link would be helpful

Offline PatM

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Re: Bow design and mechanics testing with PVC models
« Reply #34 on: March 17, 2016, 07:04:53 pm »
I don't have a link, that's just how people have tried to explain things on other threads. Less working limb, less distortion.

   With a straight bow you san even see the handle start moving towards the archer before the limbs return.