Author Topic: Bow and wood testing  (Read 6542 times)

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Offline Badger

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Bow and wood testing
« on: September 18, 2012, 09:24:42 pm »
     For those of you with any interest in this aspect of wood bowmaking I thought I would start a thread on the various tests we might do on bows and wood to satisfy questions we might have regarding performance, use of different woods, and just anything else your imagination can come up with regarding bows.
     A good example would be how much is the back stretching as oppposed to the belly compressing, or how much of the increase in draw weight of a bow is due to the wood compressing or just string angle. Tim Baker used to do wood bending tests on bows, he also used to add weight to the tips to see how much it affected performance. Anything you can think of please put it out there. Maybe we can figure out a test to satisfy the question. I have done a lot of my own testing and have to admit that proably 90% I would have to call non conclusive results for one reason or another usually relating to control over the test.

Offline NruJaC

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Re: Bow and wood testing
« Reply #1 on: September 18, 2012, 09:34:48 pm »
There are two major impediments to this I can think of. First, as you mentioned, it's difficult to establish a control. Second, and more insidious, is that it's hard to establish a significant sample size from which to extrapolate results. It's easier when you're just doing bending tests with common woods because you can get ahold of 30-40 samples of similar enough wood and perform a test to get accurate measurements. But for more complicated issues of design, constructing such a large sample of *identical* bows is tough. And without the kind of rigor, you really don't know if what you're seeing is a real result or your own influence over the test.

It's a tough one. I am definitely interested in this problem though.
Arjun from Reston, VA

Offline johnston

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Re: Bow and wood testing
« Reply #2 on: September 19, 2012, 12:13:52 am »
Steve I believe that I read something some old fool cooked up called
"The Mass Principle" and believe it or not, it works ::) ::).

Seems like a feller that smart could figure out a method to test what you are after ;).

mikekeswick

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Re: Bow and wood testing
« Reply #3 on: September 19, 2012, 04:13:09 am »
I'm interested in hysterisis.
I have a plan to make a tri-lam with an end grain core....
Skateboards are made with end grain cores and somebody I was talking to said that it was for faster 'return to straight' speed.
I read a thread on PP that got me thinking about this one.
Steve what are your thoughts on this idea?

Offline dwardo

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Re: Bow and wood testing
« Reply #4 on: September 19, 2012, 07:35:03 am »
Doesn't sound very scientific and I may be missing the point but i just make my "standard bow"
My standard is 60 ntn and 1/34 wide to 2 inch wide. I make the limbs a standard width for a certain length.
Then once the bow is on the board I just try to follow the no set mantra set out by your very clever self.

I will know that a "better" bow feels like in the hand with its weight and how it looses an arrow in comparion to my better "feeling" bows. This either works to a degree or like a previous ash bow it took too much set early on and rather than just lighten it up i will keep pushing it to see where it starts to fail. This will then let me know what the wood likes for the next one. If the bow has poor cast I look at the tips first then go though all the advice given by you lot. It does mean making my "standard" each time but it tells me a lot about the wood. That and if it makes it i get a bow out of it that i can give away or keep.

Offline Badger

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Re: Bow and wood testing
« Reply #5 on: September 19, 2012, 01:22:07 pm »
  Mike hysterisis is one of the few tests that I really felt gave me some valuable data. I had a hard time accepting the published data on how much hysterisis we could expect from a wood bow. I actually did a bit more testing that what I wrote about in the no set tillering thread. The concept of the test was to try and isolate the losses that occur just from bending the wood. So starting very early in the tillering process I not only measured the weight at various stages and how much it changed, I also took force draw curves and measured the bows efficiency with controlled chrono shots. The results of these tests were very dramatic and very conclusive even if they may have lacked some degree of precision. Wood has almost no hysterisis or at least very small until it starts to develop some memory of being bent. The amount of set a bow takes or does not take does not tell the whole story with hysterisis as wood can break down enough to where the back of the bow can actually pull it back into shape even though the compression side has been badly damaged. Monitoring the efficiency and stored energy throughout the process of tillering gives us a pretty dramatic and sometimes disheartening look at what we might be doing to the wood.
       As for using the end grain in the core, I think this would be an excellent thing to test as cores are often debated. The common logic is that cores only seperate the compression and tension working part of the limb so the lighter the better. I have usually gone with this logic but have seen some good examples of purple heart cores and ipe cored bows performing very well., We often hear that most woods are 3 or 4 times stronger in tension than compression. Stronger usually means resists bending. The way I see it is that the neutral plane would find it self much closer to the tension side of a bow so we might have three times as much wood in compression as we do in tension kind of equalling them out. I suspect that bending wood in an edge grain layout would add quite a bit to the compression strength and move the neutral plance closer to the belly possibly allowing for a lower mass limb. At any rate I think it would be a doable test and worthwhile. Now we just have to decide how to do it.

Offline dwardo

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Re: Bow and wood testing
« Reply #6 on: September 19, 2012, 02:56:37 pm »
I do love threads like this. Cant wait to see what you guys come up with so I can unashamedly leech of the information.
 

mikekeswick

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Re: Bow and wood testing
« Reply #7 on: September 20, 2012, 06:59:09 am »
I haven't got time for a longer reply at the moment but just to say i'll be gluing up the end grain core bow today/tomorrow. I suppose i'll have to make an identical bow with a standard core/no core for a 'direct' comparison.

Offline hurlbri1

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Re: Bow and wood testing
« Reply #8 on: September 20, 2012, 12:14:20 pm »
Awesome thread!  I am new to bow building...I am a high school physics teacher and am exploring a completely different approach to analyzing and predicting breaking points of bows...one thing that many people have already noticed is width of bows...well, it turns out, that a bow limb acts like a cantilever beam (for fixed handle bows--not working the d bows yet) so I looked up some engineering equations...again, something you all know but I had to find out--cross-sectional area is by far the biggest indicator of breaking.  Now people on this board also know that depth, from back to belly, is a bigger driver than width.  That comes from the equation for the moment of inertia of a beam...1/8 of an inch removed from the belly can have DRAMATIC impact on draw strength!

But you all know that, I am learning that stuff.  I am currently developing a MS Excel tool to help predict breaking points...it's been a challenge!  I haven't written a calculus statement in ages!

Another interesting thing I've read on these board--tension/ tensile/compression of a wood.  Well, there's a thing called Young's Modulus or Young's Elasticity--you can look 'em up per type of wood.  Hickory is 1.4-1.56 Giga-Pascals....

Since I have no experience with making a bow other than breaking my first 4 (I'm on # 5 now) I have to go the physics teacher/ engineer geek route...sorry  :-[

There's another interesting thing...a limb that bends like a parabola or one that bends like an ellipse--very very different! 

I'll keep ya posted on how that spreadsheet is coming along...

Cheers!

Brian
"All science is either physics or stamp collecting" -Ernest Rutherford

Offline rossfactor

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Re: Bow and wood testing
« Reply #9 on: September 20, 2012, 02:25:46 pm »
I'll just throw this one out there.......Limb harmonics. 

I'm very interested in limb harmonics.  I wonder if there is a way to test how limb design, tiller profile and/or the properties of wood effect limb harmonics, and if there is the perfect harmonic to match a specific design.

By minimizing the dampening of a harmonic you are necessarily minimizing hysteresis right? It seems like all the things that dampen a harmonic (internal friction, too much tip mass etc) are the things that make a bow slower.

I'd to learn more about the relationship between harmonics, hysteresis, wood proprieties and limb/tiller design.

Another idea I like about harmonics is that it can be intuitive.  Its not something that has to be determined just by computation.  You might be able to 'feel' and even 'hear' the difference between harmonics in different bows, and that can inform our design.

Gabe

Humboldt County CA.

Offline rossfactor

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Re: Bow and wood testing
« Reply #10 on: September 20, 2012, 02:33:44 pm »
By the way, here's a great article by Dick Baugh on hysteresis.

http://www.primitiveways.com/Bow_and_Arrow_Efficiency.pdf

Gabe
Humboldt County CA.

Offline Marc St Louis

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Re: Bow and wood testing
« Reply #11 on: September 20, 2012, 02:46:14 pm »
By the way, here's a great article by Dick Baugh on hysteresis.

http://www.primitiveways.com/Bow_and_Arrow_Efficiency.pdf

Gabe

Interesting article.  I didn't read it all but I didn't see any allowances made for air friction or the force of gravity on the limb when measuring the recoil.
Home of heat-treating, Corbeil, On.  Canada

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Offline rossfactor

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Re: Bow and wood testing
« Reply #12 on: September 20, 2012, 03:14:11 pm »
Yeah he discussed both, but not in detail.

"If there is air resistance,internal friction in the spring" (bow limb), "immersion in molasses or anything else you can dream of that tends to damp the motion then amplitude of the back and forth motion will get smaller and smaller with time."

"Depending on the stiffness of the sample and how heavy the weight, gravity will deflect the tip downward by a certain amount after the weight is attached to the tip. If the weight added is small then deflection is small and the tip oscillates up and down rapidly. If the weight added is relatively large then deflection is large and the tip oscillates up and down more slowly. All we need to know in order to calculate the time taken for one is how far gravity acting on the added weight deflects the tip."
Humboldt County CA.

Offline Bryce

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Re: Bow and wood testing
« Reply #13 on: September 20, 2012, 03:18:26 pm »
Woah some serious physics talk going on in here!
Clatskanie, Oregon

Offline SLIMBOB

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Re: Bow and wood testing
« Reply #14 on: September 20, 2012, 05:10:32 pm »
The physics teacher, as well as Gabe, both touched on the subject of tiller shape and it's relationship to limb design.  Is there a quantifiable difference in performance moving from limbs that bend circular vs limbs that bend with more of an ellipse.  If so, does it matter where along the limb, on elliptical tiller, the bend begins.  For example, longer bows with the bend starting outboard vs molly style bows with the bend starting in board and fading to the levers. For bows of equal length and design, is one profile advantageous to the other.
« Last Edit: September 20, 2012, 05:14:33 pm by SLIMBOB »
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