Author Topic: Ash Warbow  (Read 26513 times)

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Offline willie

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Re: Ash Warbow
« Reply #15 on: March 07, 2021, 04:23:39 am »
william, the video did not work for me but the first one did.

Offline William M.

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Re: Ash Warbow
« Reply #16 on: March 07, 2021, 08:10:43 am »
Really? For me the link works. :-\

I gonna re-upload it later

Offline RyanY

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Re: Ash Warbow
« Reply #17 on: March 07, 2021, 09:40:54 am »
With that little amount of bend I’d still have it at the floor tiller stage. Looks like it’s bending more in the handle and inner limbs. If you’re pulling it on the tiller tree make sure that the bow is balanced with the tips even with the handle. Looks like it’s sitting at an angle with the left tip higher than the right.

Offline William M.

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Re: Ash Warbow
« Reply #18 on: March 07, 2021, 11:42:23 am »
I have taken more away  qith the rasp since it's already at 80# while not bending at all. I guess I have plenty of room taking more wood away. Its around 31mm in the handle now I guess i can take it to 29 at it should work   :-\
It´s weighing around 1100g now

This is how it looks now.

Video: https://vimeo.com/manage/videos/520606672

The right outer limb might be stiff and the left middle one. What do you think?


« Last Edit: March 07, 2021, 03:17:57 pm by William M. »

Offline willie

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Re: Ash Warbow
« Reply #19 on: March 07, 2021, 03:52:33 pm »
Its a bit hard to tell until its bending more. If it is bending more in the center at this point I would be cautious about removing too much from the middle at this point

removing materiel from the middle third creates more apparent tip deflection, but will get you in trouble later, thats' because the bow will want to bend more at the handle than anywhere else when you get it out towards full draw.

find a pic of a well tillered warbow at brace for a reference curve.   how thick are the tips? somewhere around  1/2 of the 31mm? the taper needs to even from center to tip at this point.

another trick is to draw an ellipse on a piece of cardboard for reference. do you know the string and nail method for drawing one out?

Offline William M.

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Re: Ash Warbow
« Reply #20 on: March 07, 2021, 05:11:54 pm »
Okay I gonna stop taking away in the middle section.

Tips are 2mm wide and around 1,7mm deep.
Is it to put a nail on one side and a pen on the other to draw a circle?

And thank you really much for all the tips and help!

Offline William M.

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Re: Ash Warbow
« Reply #21 on: March 08, 2021, 01:56:54 pm »
New video, now I shortened the string like Del recommended. Removed a bit more wood.

I dont know but the left limb looks stiffer even though its looking thinner. I dont trust my eyes anymore 😅

Video: https://vimeo.com/521042282

Should I take more wood away from the entire stave or should I focus to being down the outer limbs more?

Offline RyanY

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Re: Ash Warbow
« Reply #22 on: March 08, 2021, 02:04:22 pm »
If you're trying to judge the bend by pulling that quickly while tillering then you need to slow down. No reason the bow can't be held for a moment to judge the bend. Hard to say from the video because of that.

Offline William M.

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Re: Ash Warbow
« Reply #23 on: March 08, 2021, 02:09:07 pm »
Okay I gonna retake the video tomorrow.
I was just think if I puöl it fast I may notice weakpoints, where its bending first or bending too much too early. Maybe my thhought process is wrong when tillering  :-\

Offline willie

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Re: Ash Warbow
« Reply #24 on: March 08, 2021, 11:37:28 pm »
if you draw your ellipse such that the vertices, or the P to Q distance is 120% of the NTN.   (86.5" for a 72" bow), the curve will give a bend that is slightly stiffer in the handle. :OK

this can be a flat very flat ellipse, say one that resembles the bend half way to brace or more. I draw many ellipses on my backboard to compare with occasionally as I tiller out. but getting the right bend at about brace height makes the rest of the job go much easier.

The 120% makes a very nice shape, but you will have to ignore the last 6" or so on each tip. let them be straight and not bend around so much as the ellipse.

Offline Del the cat

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Re: Ash Warbow
« Reply #25 on: March 09, 2021, 06:53:01 am »
if you draw your ellipse such that the vertices, or the P to Q distance is 120% of the NTN.   (86.5" for a 72" bow), the curve will give a bend that is slightly stiffer in the handle. :OK

this can be a flat very flat ellipse, say one that resembles the bend half way to brace or more. I draw many ellipses on my backboard to compare with occasionally as I tiller out. but getting the right bend at about brace height makes the rest of the job go much easier.

The 120% makes a very nice shape, but you will have to ignore the last 6" or so on each tip. let them be straight and not bend around so much as the ellipse.
Yes, nice... but that's the problem with ellipses... just how much ellipse? Personally I'd prefer it a bit less flat (e.g more circular).
It would be nice to get some sort of consensus on what is considered optimal.
Of course the other problem is how far round the ellipse do you expect the bow to follow... obviously not right round to the horizontal line PQ, but the shorter the portion of the ellipse that is chosen, the closer it becomes arc of a circle.
Like I said very hard to define what we actually mean by "elliptical"
I've drawn a circle matched reasonably to the ellipse, up to the point where they intersect... it shows how subtle the difference is over a realistic arc.
Del
« Last Edit: March 09, 2021, 07:06:24 am by Del the cat »
Health warning, these posts may contain traces of nut.

Offline Digital Caveman

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Re: Ash Warbow
« Reply #26 on: March 09, 2021, 09:16:32 am »
I think the important part is having the right radius of curvature at any given point given it's width and distance from the limb tip.  On a pyramid bow this should result in a constant radius which means it will have a circular arc shape.
God Bless America

Offline RyanY

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Re: Ash Warbow
« Reply #27 on: March 09, 2021, 10:20:39 am »
I think the important part is having the right radius of curvature at any given point given it's width and distance from the limb tip.  On a pyramid bow this should result in a constant radius which means it will have a circular arc shape.

This isn’t entirely true but a close approximation. Here’s a post by Woodbear on Paleo Planet from years ago. Without getting technical it’s much easier to just monitor for set and adjust tiller accordingly.

I suppose it depends on what you call a pyramid bow. If the sides absolutely must be straight line taper, then uniform thickness is not going to give you circle of arc tiller, or uniform stress either. In order to get uniform stress and that perfect circular tiller the sides of the pyramid must bulge out a bit. The bow can and should taper as though aiming to get zero width at the nock, but then deviate from this shape and stay at a reasonable width for the last few inches prior to the nock.

A straight line taper to a point with uniform thickness is indeed the shape that gives uniform stress, and a circular bend in a cantilevered beam with a load at the end. But this assumes that the total deflection is small, such as in an architectural building application. The strength of the beam must be proportional to the distance to the load, and the thickness is the same for the length of the beam, so the width of the beam must be proportional to the distance to the load.



However in a bow the bend is large, and the bending force in not proportional to the distance along the bow arm. The bending force is proportional to the distance from the drawn bow string to the bow arm. Since the bow is bending in an arc, the force is not exactly proportional to the distance along the arm. (Note the difference between the straight dotted green line and the bow arm in the diagram.) In order to get circle of arc tiller, and uniform thickness, the width of the bow must be proportional to the distance from the location on the bow arm to the string at full draw. (This assumes a rectangular cross section bow arm pyramid bow.) This is called Hickmann corrected in archery the technical side. If you know the length of bow, and stiff handle you want, you can draw this out to scale on paper, and measure the distances fairly easily. Then use these widths when you lay out the bow. The maximum width of the bow should not make any difference to the need for a convex bulge to the sides, except that the width effects the draw weight.

If you want a pyramid bow with an absolutely straight taper, and also a circular tiller, you will have to adjust the thickness so that the bending strength of the bow arm is proportional to the distance to the string by adjusting the thickness instead of the width. The stress will not be uniform, being greater by the amount that the wood is thicker along the bow arm. If the bow tapers to a non zero tip width, then the tip area will be stronger and deviate from the circular tiller, but this seems to be advantageous most of the time.

I hope this satisfies the desire for a scientific explanation of pyramid tiller, and uniform thickness. The Hickmann corrected pyramid bow is quite elegant in its simplicity of concept. I hope I have conveyed it adequately.

Dave.

Offline Digital Caveman

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Re: Ash Warbow
« Reply #28 on: March 09, 2021, 10:55:33 am »
I wish I had that book.   
God Bless America

Offline William M.

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Re: Ash Warbow
« Reply #29 on: March 09, 2021, 04:17:06 pm »
Wow interesting things. I gonna read more into that.