PDRacer Sailboat - Articles

Building Wing Sails
By Mladen
WingSails.com

Briefly, there is an inflatable bladder, extending from the head to the foot of the wing, placed between the panels approximately 30% behind the mast. The bladder maintains the thickness of the airfoil (I'd suggest some 15-20%), and naturally makes the lee side cambered. When tacking, the sail cloth moves slightly around the mast, in order to accommodate the difference in panel lengths (actually widths). Handling is equally easy as of the 'conventional' one, even easier because of smaller forces.

To keep the shape stable, the leech should be as tight as possible. For high air speeds, both 'outhauls' should be carefully tuned. To accommodate the wind gradient, the upper boom (if it exists) could be allowed to 'swing' horizontally to a predetermined angle, or the upper portion of the mast could rotate partially (look haw a guy figured out the mast/gaff configuration on wingtttt.jpg). My kayak sails are short and I didn't bother with the twist.

"For a 16 sqft wing, the cloth portion should be 10' high and 1'8" (50cm) wide (on average), i.e. aspect ratio 6:1 or slightly lower (shouldn't be lower than 5:1). The mast should be 1-1.5 foot longer (for bury, depending on the depth of your hull, either 1 3/8" or 1 1/2" outer diameter (o.d.) aluminum tube, preferably anodized (composite is certainly better). If you want to make it collapsible, use 'spring buttons' to lock the mast's sections, because upper and lower booms should be in the same plane. I found booms 0.875" o.d. convenient - fit nicely into 1" o.d. supports (short mounts built into the mast).

I avoided any drilling and rivetting. You can see how I make these joints, but there is a warning: at higher temperatures and leech tensions, epoxy resin can fail and the 'plug' inside the mast can start moving. It happened a couple of times (not to me) - a solution was to drive a couple of screws into the epoxy plug. You should assemble the mast first, install the 'gafflet' and the 'boomlet' and apply a satisfying (high) tension, by means of a rope tied to the booms' ends. Now you can determine the amount of bending of the mast, necessary for cutting the sailcloth.

The part "a" on that goes around the mast is made of "Cordura" nylon - it is strong and pliable. There are two side Dacron panels "b". You've already determined the curvature of their front edges (that go onto the part "a"). The foot and the head are roughly horizontal (feel free to play with the shape). You can make the wing tapered toward the top, with the foot wider than the head. The aft edge is 'hollow' (concave) for better tensioning (I found 1% - 1.5% sufficient). I usually join aft edges of panels "b" at the leech, which I make from "luff" tape.

Also, the trailing portion of the sail can be made as a single ply (part "c", up to 30% of the sail's width), which would make the trailing edge angle smaller and the sail lighter. The tension of the leech is very important and should be as high as possible. I 'pre-tension' the tape/rope, glue the cloth on it and then sew it. Another way could be a wire threaded through a narrow pocket at the leech. The upper 'clew' (top rear corner of the sail) is attached to the upper jaw-slide (which can be horizontally adjusted on the gaff for proper 'lateral' tension of the cloth). In a reefable version of the wing, a hoist can be attached to the clew. To keep the tension, I cut a "V" at the end of the lower boom. The 'main sheet' is first threaded through the lower jaw-slide and then secured in the "V" slot. If the leech is loose, the sail gets deformed under pressure - at least with my modest design techniques.

If you want a totally collapsible wing, you will have to find an inflatable tube to place between the panels (this 'sausage' is essential). I've been told that such tubes can be found in pool supply stores, even online. I used inflatable sponsons for folding kayaks (Feathercraft custom-made them for me). I was quite satisfied with partially foldable wings, where the 'sausage' was made from a closed-cell foam. I usually fix several pieces of Velcro on inner sides of panels "b", and on the 'sausage' correspondingly, as means of attaching it. Inflatable bladders are a bit problematic - if inflated fully, they tend to get round, which doesn't give a nice shape to the wing. In order to get an oval (elliptic) shape, I inflate a bladder partially (say 60%), but then it is too soft, and if fixed at the top and the bottom only, tends to fall aft. It can also be held in place by straps sewn between the panels, or a full size pocket. Such a bladder also tends to be thicker in the middle than at its ends, which makes the design more difficult (kind of tri-dimensional). However, the thickness of the 'sausage' should be 15-20% of the sail's chord."

For the sake of simplicity, I make sides/panels absolutely flat, and that's fine assuming the mast is straight and the 'sausage' is evenly thick. I can possibly imagine how the panels should be cut for more difficult shapes, but without proper software packages I wouldn't dare to attempt. I remember what problems encountered James Wharram's sailmaker (he was a real professional :-) when he tried to make the Tiki wingsail (although it's only a wide pocket luff sail). Actually my worst fear comes from a 'twisted wingsail', but let's leave it to specialists.

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