Making a Flight Bow.pdf

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Making a Flight Bow
Few flight bows are commercially produced, and the construction of
his own record-making bow is the dream of many an ambitious archer
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T HE flight bow is the ultimate in the
bowyer's field. Many flight bows are
made, shot once and then abandoned. Or,
they may shatter during that single use
and go into discard that way. Just the
same, flight bows serve a valid purpose in
the archers' world, for they are somewhat
like the Formula cars in international rac-
ing—paving the way for future develop-
ments based on their performance.
To make a record-setting flight bow is
the aim and dream of many a bowyer—a
goal all too seldom realized. Because flight
bows are the final word in bowyery they
are seldom, if ever, commercially pro-
duced. You just cannot go into your
nearest tackle shop and buy a flight bow
You may be able to have one made for
you, if you're lucky, but essentially the
flight bow is a personal thing. It conforms
to you and to your ideas. It may be the
result of months of planning and days of
work and when once it's finished, you will
be faced with the decision as to whether or
not you'll overdraw just once, in the big
gamble which may—or may not—pay off.
For these reasons, any plans for a flight
bow must be offered somewhat diffidently.
They are the end product of someone else's
thinking—not yours—and they may not
embody the ideas and principles which you,
as a bowyer, feel are necessary for suc-
cess. However, the bow which resulted
from these particular plans is a lovely
thing, light in the hand, sweet in per-
formance with no harshness on the hand.
Surprisingly enough, there seems to be
no drastic stacking up at the end of the
draw and there is comparatively little
pinch. However, since all good flight
shooting today is done by means of the
hook, the matter of finger-pinch is rela-
tively unimportant.
The plans have been designed by Frank
Bilson, one of England's foremost archers,
and in his capacity as head of the Yeoman
Bow Company, a liveryman of the Wor-
shipful Company of Bowyers. These then
are the plans and specifications of the
Yeoman Flight Bow (Copyright 1960)
Many flight bows, following the prec-
edent established by the Turkish and Per-
sian bowyers, carry the big siyahs, or ears,
which impart additional impetus and cast.
Now siyahs were developed long before
our new synthetics and it is our contention
that using modern fiberglass, it is no longer
necessary to incorporate them in flight bow
design. Since the siyah is not an integral
part of the limb-arcs, it is slow moving in
relationship to the bow itself. Thus, with
the materials available today, i.e. those
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Elongated view of the bow shows powerful curves
which impart cast; retain smoothness in shooting.
Here the bow is braced. Comparison shows way in
which power is converted within bow when braced.
Ornamental nock beautifies bow. Thin strips of
plastic strengthen any inherent weakness in bow.
View of the braced bow, showing a part of upper
limb cut away to form "semi-center shot" section.
With center-shot device, force of the string is
exerted down center of bow with greatest effect.
This is a view of the finished handle of a good
target bow. Also shown is laminated handle riser.
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The "feather" arrow rest is seen above. This is
great aid to efficient use of plastic fletchings.
After taking laminated bow from clamps, excess
glue must then be removed from handle and limbs.
which inherently do the work formerly
given to the siyah, the addition of the ears
results in a lowered performance.
Dr. Paul Klopsteg has advanced the
theory that the ideal bow for cast would
be based on the principle of the uncoiling
arc. These plans are adaptations of his
theory using fiberglass both for the back-
ing and the facing in the two limbs.
MATERIALS
For a 48" bow you will need the fol-
lowing materials:
Four (4) Maple Laminations24-1/2"xl-7/8"
The taper on these should run from .68
thousandths of an inch down to .45. An
additional .15 thousandths will give you,
in your finished bow, an increased draw
weight of approximately 20 pounds. There-
after the draw weight increase is partially
nullified by the mass increase.
One (1) Handle Riser. This should be
of any good hardwood, with walnut being
a good choice. 8-1/2" in length, the riser
tapers at both ends.
Four (4) Fiberglass Strips 24-1/4"xl-7/8"
Personally I prefer Bo-tuff, but any similar
material can be used. Get strips which
measure .40 thousandths in thickness.
Twelve (12) C-clamps. Glue. Urac-185
by preference. One (1) Former. See in-
structions which follow. Rubber wrapping.
Thin plywood battens. Grease-proof pa-
per.
in order to get the right dimension. The
width must be a minimum 1-3/4" and it may
be advisable to have it an inch wider. Since
this is a one-step glue-up, you can use the
spare width to place brads, in order to hold
the materials in position.
When the former is cut, you can rout
out the excess material along the base line
so that the jig follows the working area.
This is not essential, but unless you are
using extra large C-clamps, it will facili-
tate the clamping. Be sure that the work-
ing surface is absolutely flat and free from
splintering.
Cover the former with two layers of your
grease-proof paper, holding it in position
with Scotch tape or thumb tacks. This will
keep the bow from sticking to the jig with
any expressed glue.
Prepare the fiberglass and the lamina-
tions carefully. The pair of lams which
will be on the back of the bow will have
a 1/2" overlap at the center and accord-
ingly must be feathered or chamfered to
form a smooth overlay. Set up your series
in a dry run, clamping as you go so that
when you are ready to glue you will know
what you are doing.
With the backing down and the first pair
of lams, you are ready to set the handle
riser. Since this block will come above
the line of the bow belly the lams and glass
will not meet over it and they must be
feathered down to lie as smoothly as pos-
sible.
Having finished your dry run, you will
now do your actual gluing up. There are
six surfaces to be covered—the insides of
the glass and both sides of the laminations.
Make sure that with the latter the taper
runs along the outside of the pairs and that
the flat sides are together. If you are using
Urac-185, work carefully in a room with
as low a temperature as you can manage.
INSTRUCTIONS
The former is cut according to the scale
shown. Your material is any block of
sufficient length and thickness, free from
knots and twists. The basing line, along
which the inch-stations are located, should
be perfectly flat. If a block of sufficient
thickness is not available, you can make
one by gluing sheets of plywood together
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A wheel with lamb's wool buffer is used here to
apply final glossy finish to the nock of the bow.
French curve would come in handy to mark curva-
ture of handle riser, but other ways can be used.
If French curves are unavailable then cut your
own patterns in reverse and use them for marking.
Finish the bow with series of coats of plastic-
based elasticized varnish, to protect from wear.
Shaft (left) and footing (center) are used when
you decide to make your own target arrow (right).
Successive stages show how the gradual rounding
of the shaft is done with planes and sandpaper.
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