Author Topic: Basics (Read 1525 times)

stuckinthemud · « **on:** July 14, 2020, 05:30:13 am »

OK, so after 4 failures in a row my confidence is a little battered and I want to run over the basics. I am switching from ash (crysals) via apple (clumsy tillering/flawed timber?) to yew. I have had to go shorter, from 33 inches to 29 and there is a bit more character in there than I would like. Draw remains at 8.5 inches so there is still some extra length at triple draw length plus a bit.

Reducing the length by 3 inches should add somewhere around 10 to 15 lb to the draw weight?

By switching to yew, there is about a 10 percent increase in draw weight?

Width controls draw weight, thickness controls bend in both shape and amount. This is up to a point, I have always tillered with a bit of one and a bit of the other, bit of a balancing act.

Thicker is faster - huh? never made sense to me if you go with width controls weight - would love some comments on the theory behind this one, seems to be two camps, flat and wide versus narrow and thick.

Thanks for looking
Andrew

PatM · « **Reply #1 on:** July 14, 2020, 07:23:06 am »

Thicker stores more energy per mass. Twice as wide is twice as strong, twice as thick is much stronger.

BowEd · « **Reply #2 on:** July 14, 2020, 08:35:23 am »

To add while being narrower to reduce mass.
On a regular lengthed bow,If this is a cross bow it does'nt matter then.
Some wood can perform well flat or D sectioned.Some can't.That's why osage is king and yew is queen of the bow woods.

mmattockx · « **Reply #3 on:** July 14, 2020, 09:47:00 am »

Quote from: stuckinthemud on July 14, 2020, 05:30:13 am

Thicker is faster - huh? never made sense to me if you go with width controls weight - would love some comments on the theory behind this one, seems to be two camps, flat and wide versus narrow and thick.

Thicker is faster because it causes higher stresses in the wood, so is working closer to the material limit and storing more energy per unit mass (as PatM says). This assumes that the wood is up to the job in the thicker bow. If the higher stresses cause a lot of set then a thinner, wider version would probably be faster in the end because it doesn't take the same amount of set. You always have to work within the limitations of your wood, you can't just decide to go thicker if the wood is not capable of surviving the stresses it will see.

Quote from: PatM on July 14, 2020, 07:23:06 am

Thicker stores more energy per mass. Twice as wide is twice as strong, twice as thick is much stronger.

Thicker is stiffer, not stronger. It results in higher draw weight but also causes higher stresses in the wood, which can lead to excessive set or other failure modes.

Mark

Del the cat · « **Reply #4 on:** July 14, 2020, 09:53:31 am »

"Width controls draw weight, thickness controls bend in both shape and amount"
I'd say that's wrong.
Width gives stability (reduced twist) and some draw weight (draw weight directly proportional width. E.G twice the width=twice the draw weight)
Thickness gives draw weight proportional to the cube of the thickness (eg twice the thickness=8 times the draw weight)...
Which is why it is also critical to the bend as small thickness errors can show up as poor tiller ('cos the error is cubed).
Del

Jim Davis · « **Reply #5 on:** July 14, 2020, 04:50:56 pm »

Quote from: stuckinthemud on July 14, 2020, 05:30:13 am

I have had to go shorter, from 33 inches to 29 and there is a bit more character in there than I would like. Draw remains at 8.5 inches so there is still some extra length at triple draw length plus a bit.

Andrew

Did I miss something? Are you making a crossbow? Or are you talking about draw length?

Thickness is the limiting factor for degree of curvature, as well as the strength info posted above.

willie · « **Reply #6 on:** July 14, 2020, 08:07:16 pm »

Quote from: Del the cat on July 14, 2020, 09:53:31 am

twice the width=twice the draw weight
Thickness gives draw weight proportional to the cube of the thickness (eg twice the thickness=8 times the draw weight)...

yes

Quote from: mmattockx on July 14, 2020, 09:47:00 am

you can't just decide to go thicker if the wood is not capable of surviving the stresses it will see.

yes, stress must be considered if you do not want too much set or a broken stave.

Quote from: stuckinthemud on July 14, 2020, 05:30:13 am

By switching to yew, there is about a 10 percent increase in draw weight?

switching from what? a white wood of the same density?

Quote from: stuckinthemud on July 14, 2020, 05:30:13 am

Width controls draw weight, thickness controls bend in both shape and amount. This is up to a point, I have always tillered with a bit of one and a bit of the other, bit of a balancing act.

you balance shape and amount?

PatM · « **Reply #7 on:** July 14, 2020, 08:56:38 pm »

[quote author=mmattockx link=topic=68500.msg961484#msg961484
Thicker is stiffer, not stronger. It results in higher draw weight but also causes higher stresses in the wood, which can lead to excessive set or other failure modes.

Mark
[/quote]

Of course. I was using the term as understood in a poundage sense, not as a material.

bownarra · « **Reply #8 on:** July 14, 2020, 11:44:13 pm »

Imagine building some bridges over a river. One bridge is made of stone, one wood, one steel.
All these materials can make a bridge that will span the river.
However due to the constraints of the materials used the bridges will look very different

Just the same with bows and woods used.
for the same drawlength and weight they are going to look quite different if made optimally.

Primitive Archer

Author Topic: Basics (Read 1525 times)

stuckinthemud

Basics

PatM

Re: Basics

BowEd

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mmattockx

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Del the cat

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Jim Davis

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willie

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PatM

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bownarra

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