Building the sharpie rudder
I used 1/2" thick mahogany to strip plank the round case and the canister
halves over half molds (photo, below). Since the case and canister must be quite
accurately rounded, I made custom sanding blocks to match the inner and outer
curves of the canister and case. I used them to smooth the surfaces of the case
and canister halves after the strips were bonded together over the molds.
I also made a specialized tool that pivots about a hole in the center of the
mold which I used to accurately apply fairing compound to the inside of the
surface of the case halves (photo, above). When I joined the halves,
I was assured of a smooth accurate cylinder on the inside. After a final smoothing
with a custom sanding block, I covered each side of the components with 6 oz
fiberglass fabric to improve torsional strength.
Making the ball bearing races
I planned to use 1/2" diameter Delrin ball bearings and needed to form a race
on the canister and the case slightly greater than the radius of the balls-in
this instance 3/8". I formed a race on the top and bottom edges of the rotating
canister by bonding a plywood disk, with a diameter 3/4" smaller than the end
cap, to each end cap.
The case is joined to the hull's bottom planking (photo, above). Tolerances
have to be close enough to prevent balls from dropping out of the race and to
prevent irritable slop.
I fashioned fillets in the corners of the races using epoxy with 420 Aluminum
Powder added to make a tough-wearing surface. When the fillets cured, I sanded
them smooth (Figure 2).
Designing the rudder blade
The rudder blade's chord length (width) is limited by the diameter of the canister
and further by the amount of desired balance/counterbalance. The greater the
diameter of the canister (within reason), the greater potential chord length
for the rudder blade. A certain amount of area is needed for steering and you
hate to achieve that by simply making the rudder deeper. Greater chord length
is desirable, but comes by pushing the amount of counterbalance. Counterbalance
is that portion of the rudder blade located forward of the point of rotation.
The point of rotation in this case is the center of the canister's rotation
(Figure 1). Typically the point of balance (center of rotation) falls
about 22% of the rudder blade chord length back from the leading edge, although
we've seen it pushed as far back as 32%. The impetus is to get as much rudder
blade area forward of the point of rotation as possible. However the consequence
of excessive counterbalance is that the rudder may lose feel or may even develop
lee helm. Raking the blade aft reduces some of the counterbalance. In this instance,
I have chosen to take the risk and set the counterbalance at 30%, knowing I
may have to modify this after sailing the craft.
The choice of rudder blade section is important when heavily balanced. In this
situation, it is better to have a section where maximum thickness is further
aft than normal, 50% in this case. For information on calculating foil sections
and building rudder and centerboards, see our publication 000-448 Building
Rudders and Centerboards or Theory of Wing Sections by Ira H. A. Abbott
and Albert Edward von Doenhoff.
Bondable Teflon and Delron balls are available from McMaster Carr. Phone 708-833-0300
Building a motor bracket
Chapelle says wide side decks on a sharpie improve seaworthiness, and I agree.
This hull is essentially a decked-over lifeboat and wide side decks provide
stability in a knockdown. The wide side decks also result in space below sufficient
to house an outboard motor well to one side.
Sharpies existed prior to the invention of the internal combustion engine.
To get home, you either sailed, rowed or used a sweep. Today, an auxiliary motor
is nearly mandatory on cruising boats so you can make time with or without wind.
Modern four-cycle outboards are quiet, economical to operate, and clean. I wanted
an auxiliary outboard motor and I wanted it in a well where I had convenient
access to it.
The Mercury 9.9 four-cycle motor penetrates the hull with an arrangement that
is flush when retracted and protrudes only from cavitation plate down to the
prop when motoring. Motor wells can allow a lot of flooding which reduces the
potential displacement of that area of the boat, so the goal was to minimize
well size. Clean running and well size have been dealt with in one way or another
in a number of designs, most notably in the production Schock 40 sailboat and
I used their approach as a guide.
I mounted the motor to a welded stainless steel bracket (photo, above). When
the motor is lowered, a plywood plate fixed to the motor fits the hole and seals
off, exposing only the motor' cavitation plate and prop. Control cables for
shifting and throttle lead to the cockpit wall. Manual starting is routed for
access from the cockpit.
The motor bracket has stainless steel legs with a fitting that allows it to
pivot. I used stainless steel rod end bearings for this. Bolts pass through
the bearings and screw into nuts bonded into wooden blocking (photo above
and Figure 1). This configuration allows the motor to be pulled vertically
from the well, minimizing the hole size in the bottom of the boat. The length
of the legs allows the motor to lie forward of the hole. To minimize flooding,
I made the well as small as possible. The space under the raised motor is taken
up by a fuel tank which further reduces the amount of flooding in the well and
restores some of the displacement. In addition, when the motor is raised, I
insert a plug into the open space.
Phase 3 of the sharpie project will continue in a future issue of Epoxyworks.
Epoxyworks 18 / Fall 2001
Copyright © 2002, Gougeon Brothers, Inc. All rights reserved.
This page is maintained by Gougeon Brothers, Inc. Last Modified on 10/28/02.
Reproduction in any form, in whole or in part, is expressly forbidden without the consent of the publisher. EPOXYWORKS, Gougeon Brothers, WEST SYSTEM, Episize, Scarffer and Microlight as used throughout this publication, are trademarks of Gougeon Brothers, Inc., Bay City, Michigan, USA.
