Author Topic: Trapping?  (Read 2626 times)

Shredd

  • Guest
Re: Trapping?
« Reply #20 on: May 10, 2022, 01:16:04 AM »

[/quote]

For the engineers in the crowd here that love the math, i'm glad to see you having fun with it. But i seriously doubt that many bowyers are going to get into such a precise analogy of something that has such a minimal effect on the bow. Your time would be better spent calculating energy storage, and how to successfully transfer said energy to the shaft..... Food for thought...     Kirk
[/quote]

I got what you are saying...  A lot of this stuff just gives you a better understanding on whats possibly going on inside the limb and it is more or less after the fact...  But I personally think toying with that neutral zone and moving it around could possibly aid in better energy transfer...   Or not...   :dunno: :laughing:

Offline Longcruise

  • Trad Bowhunter
  • **
  • Posts: 1335
Re: Trapping?
« Reply #21 on: May 10, 2022, 11:00:07 AM »
Quote
But I personally think toying with that neutral zone and moving it around could possibly aid in better energy transfer...   Or not...   

That thought is pretty much what got me going on this trapping thing.
"Every man is the creature of the age in which he lives;  very few are able to raise themselves above the ideas of the time"     Voltaire

Online mmattockx

  • Trad Bowhunter
  • **
  • Posts: 667
Re: Trapping?
« Reply #22 on: May 10, 2022, 03:27:19 PM »
Your time would be better spent calculating energy storage, and how to successfully transfer said energy to the shaft..... Food for thought...     Kirk

Calculating energy storage is relatively easy, calculating how it is transferred during a shot is very hard.

Why do you chose to trap the belly side on longbows? From a structural standpoint it makes more sense to trap the back as it has a bigger margin to failure. Until a belly failure occurs I don't think it will make any difference to how the bow shoots, though.


Since the limb width did not change I would assume the stresses on each side of the limb did not change... If this is so would it not be more correct in saying the back is weaker by 6.6 percent compared to it's limb thickness and of the previous rectangular section?? Or percentage wise the back has to handle the same amount of stress but at a decreased strength of 6.6 percent??

The stresses do change because the neutral axis shifted towards the belly. This increases the maximum stress on the back and decreases the maximum stress on the belly. I wouldn't say the back is 'weaker', in engineering terms strength generally refers to the strength of the material involved. You could say it is less stiff because there is less material on the back to carry the loads. The way bowyers use the terms strong and weak make sense for bows, but they are not the same as how engineers use the terms in relation to materials.


Another question... Since the back is more stronger in tension vs the belly in compression wouldn't the numbers be different?? Wouldn't there be some kind of curve??  Lets say the back is 6% weaker and the belly is 2% stronger compared to thickness of limb.. Or could be the back is 2% weaker and the belly 6% stronger... I am not sure about numbers but you get the idea... At least, I hope...

You are confusing strength and stiffness. Stiffness (the modulus of elasticity) is what matters here. The FG lam is the same stiffness in both directions (that it, it deflects the same amount in tension or compression for any given load until a failure occurs), but will fail sooner in compression due to buckling, which is a stability  failure and happens at stress levels below the actual maximum strength level of the material.


Another question...  Unidirectional glass, since tension trumps compression in this case wouldn't the neutral zone be located slightly towards the back in a rectangular section and moved more towards the center when the limb is trapped and material removed from the back??

Because the FG is the same stiffness in both directions (and it dominates the load carrying compared to the core material) the neutral axis is located on the mid-thickness plane of the limb. You are correct that it shifts away from the side that is trapped and that it would be closer to the back than the belly if the back material was stiffer in a rectangular cross section.

Just as a note, the equal stiffness in both directions thing may not apply to all woods. I have seen this discussed before and there doesn't seem to be any good data on the hardwoods we typically use for bows. I would really like to know more about this as it does change my design work if there is a significant difference between MOE in tension and compression.


But I personally think toying with that neutral zone and moving it around could possibly aid in better energy transfer...

The only ways you can move the neutral axis around are by changing the limb cross section (which is what trapping is doing) or by using different lam materials or different thicknesses of FG lams on back and belly.


Mark

Online Kirkll

  • SPONSOR
  • Trad Bowhunter
  • *****
  • Posts: 2418
Re: Trapping?
« Reply #23 on: May 13, 2022, 07:58:39 PM »
The key to energy transfer is directly associated to stopping the forward motion of the limb with string tension, and that is done with pre load on the limbs....

You can calculate until the cows come home, but until you find the right limb geometry that allows you to store the energy in a shorter section of the limb, and eliminate as much forward limb travel possible, with the right amount of preload to stop those limbs dead, your are wasting your own energy doing the calcs...

If you try and calculate the perfect geometry for energy storage, it can be done, has been done, and the results is a vertically unstable bow....

Bowyers Calcs for limb design:
Core to glass ratio.
Experiment with compound taper rates to include wedges , power wedges, & tip wedges, or milling a multi taper lam.
Measure string tension at different brace heights accurately with an inline scale.
adjust preload with pad angle adjustment, and test limb geometry tolerances.
accurate chrono testing and logging your results.
DFC charts can help you determine geometry alterations.
Note changes in different glass or carbon purchases. (every batch you buy is different)
Keep good records, and note all the little changes.

Works for me.....  Kirk
Big Foot Bows
Traditional Archery
[email protected]
http://bigfootbows.com/b/bows/

Users currently browsing this topic:

0 Members and 3 Guests are viewing this topic.
 

Contact Us | Trad Gang.com © | User Agreement

Copyright 2003 thru 2024 ~ Trad Gang.com ©