Because my better judgement is usually no better than my worst judgement, and because people keep asking me to, here is the two pager summarizing some important parts of Archery: The Technical Side. This one will stay up, but I probably won't be commenting so as to not create controversy. As I said before, I do not wish to create offense.
Taken from: Archery: The Technical Side
by C.N. Hickman, Forrest Nagler, and Paul E. Klopsteg
This document describes a graphical method for laying out a bow in order to mathematically produce a width and a thickness for any wood of any draw weight and of any draw length. Since wood is a natural material and subject to variation, these numbers should serve as guidelines only rather than an exacting reference. Please note these formulas are for rectangular cross section self bows that lay flat when unstrung – any backing, reflex, or string follow will alter the finished bow to some degree.
Referring to the attached picture:
BT = Bow limb from fade to nock
R = Center of path of T, of radius t = (3/4)(BT)
G = Length of arrow
H = Brace height of string
CA = ET¹, Upper half of string
Arc BT¹ = The drawn limb; it is the arc of a circle of radius r, with the center on the perpendicular BF to BT¹, and on the perpendicular bisector of BT¹
D = Distance from fade to string measured perpendicularly to string at full draw along BD
To Draw the Diagram:
1) Establish your draw length G, and draw a vertical line from P to E.
2) The length of the bow from nock to nock can be established based on your draw length (see below). When you decide on handle length and fade length, the actual bow limb length BT can be drawn. PB is the length of fade and ½ of handle length.
3) Once PB and BT has been drawn, calculate R. This is BT times .75
4) Draw radius t at R
5) Decide on your brace height, H. This can be established by your fistmele – in giving a “thumbs up,” the distance between the tip of your thumb to the bottom of your hand, say, 6”. Once you have decided on your brace height, offset PT by this distance to obtain CA
6) Since CA = ET¹, draw an arc from E of length CA to intersect the arc t
7) Draw a construction line from B to F (F will be established next, for the moment, pick an arbitrary distance straight down)
8 Draw a construction line from B to T¹
9) Draw a construction line as a perpendicular bisector of BT¹, and extend it to meet BF at F
10) The bending radius of the limb can now be drawn. Draw an arc r with center at F from B to T¹. This will be R used to determine the Thickness in the formula
11) Draw BD. This line is drawn from B and perpendicular to ET¹. This will be D used to determine Width in the formula
General Notes for any given draw:
The Modulus of Elasticity of a wood fixes the relation between curvature, thickness, and stress.
1) Bow length limits limb curvature
2) Limb curvature limits thickness (for any given wood)
3) Thickness determines stress (for any given wood)
4) Thickness then practically determines the cast of the bow (for any given wood)
5) Width fixes power of bow
The back of the bow is laid out such that a given width at the fades tapers in straight lines to a point of zero width at the nocks. The nocks are then given a width of 1/2", and parallel lines are then drawn from here, back to the tapers.
The thickness remains constant for the length of the tapers, then it tapers where the limb is parallel in order to maintain a perfect arc of a circle tiller.
The handle is 4" long by 1 1/4" deep by 7/8" wide with 2" long fades. Handle cross section is shown to the left of the bow - the narrow portion faces the archer.
Draw Length
Your height divided by 2.5
Draw Weight
This is personal preference
Bow Length
Generally, 68" NTN for a 28" draw. Adjust bow length 2" for every 1" difference in draw length
Bow Thickness
R/T = E/(2S) Solving for T yields: T = [(2S)R]/E
Where:
R = Radius of curvature in inches (r in drawing)
T = Thickness
E = Modulus of Elasticity
S = Modulus of Rupture
Bow Width
PD = (SWT²)/6 Solving for W yields: W = (6PD)/(ST²)
Where:
P = Tension in string (12% more than draw weight)
D = Distance in inches from fade to string measured perpendicularly to string at full draw (BD in drawing)
S = Modulus of Rupture
W = Width
T = Thickness
