Transom

The Flatfish plan specifies either white oak or mahogany for the transom. I chose mahogany because of its classic look. The transom thickness is 1 1/8″, so I needed to purchase 5/4″ thickness planks from which I could mill and then glue up boards to produce a blank that was roughly 4′ x 5′ in size. I got my planks from Highland Hardwoods in Brentwood, NH.

There are a variety of woods commonly known as mahogany. Two general categories  are “Honduras” and “African.” Honduras mahogany is also known as “genuine mahogany;” the so-called African mahoganies are actually different species. Both actually look quite similar, and Justine incorporates both types. To my eye, the main difference is that Hondouras has a more even color, and African tends to have more pronounced lighter and darker bands parallel to the “grain” of the wood. In spite of its “more even” color, Honduras mahogany can have very distinctive grain patterns, as seen below.

My transom planks were about 7″ wide at most, so the transom needed to be made up of 7  planks, glued edge-to-edge. Large glued-up members like this are more likely to resist splitting and warping if the joints are reinforced by embedding metal rods called “drifts” as the boards are being glued up. I used 10 pieces of 5/16″ bronze rod, about 8″ long, driven into predrilled holes that crossed the joints and spanned the planks on both sides of the joints. The holes need to be drilled very carefully so they don’t wander away from the center of the planks, and the drifts need to be placed with forethought so that they will not interfere with any fasteners that go into the transom later in the construction. The planks were glued up using West System epoxy.

The transom blank glued up and being smoothed with my 07 joiner plane.

I smoothed the glued-up transom using a hand plane, followed up by hand sanding. After sanding I applied a coat of shellac to seal the wood and give it some protection from stains.

For finish sanding of the transom I made what I call a “sanding plane” consisting of a piece of 3/4″ plywood to which I attached home-made handles fashioned after those that might be found on a hand plane. The plywood piece was sized to fit a whole sheet of sandpaper. I used two-sided tape to affix the sandpaper to the plywood.
Transom blank after sanding and sealing.

A piece of the backbone known as the transom knee is bolted through both the transom and the keel plank to span and thus reinforce that joint. My transom knee was made from a piece of white oak.

Nearly all of the fasteners that join the backbone members are silicon bronze carriage bolts, ranging from 1/4″ to 1/2″ in diameter. Carriage bolts have a smooth rounded head, and the upper part of the shank, just under the head, has a square cross section. The other end is threaded, and secured with a washer, lock washer, and nut. As the nut is tightened, the square part gets drawn down into the fastener’s (round) hole, preventing the head from turning. In this way the bolt can be fully tightened from one end, without needing a tool to hold the other end. The head of the bolt can be buried below the surface of the wood, and if the bolt becomes loose, it can be retightened simply by tightening the nut.

Carriage bolts are used to fasten the transom knee to the transom. Bolt holes through the transom are counterbored so that the bolts can be concealed under bungs (wooden plugs) on the transom surface. I used a square as a guide while drilling the holes, and a depth gauge to ensure that the counterbores were drilled to an appropriate depth.
The transom knee is bolted onto the inside face of the transom, and will serve to strengthen the joint between the keel plank and the transom. All sides of the transom knee have been give a coat of red lead.

I wanted to carve my boat’s name in the transom and realized that I should do that before securing the transom to the construction molds. This would allow me to do the carving with the transom horizontal, and at a convenient working height.

Justine is named after Justine Liff, who we met while she was Boston’s Parks Commissioner. We quickly became friends with Justine and her family. Sadly, we only knew her for a short time before she became very ill with cancer and died. My wife Annie, an Episcopal priest, presided at her funeral at Boston’s Franklin Park. During the funeral, Boston’s Mayor Tom Menino told the assembled crowd that Justine’s assistant said that she didn’t have to blow-dry her hair, she could just follow Justine around for 15 minutes and the breeze that was created would suffice. This was a good omen for Justine the boat!

Once Justine is in the water, the transom will be tilted at about 45 degrees to any viewer. I factored this into my layout by stretching my letters by about 40% in the vertical direction. After picking out a font and laying out the stretched letters on a slight arc to complement the shape of the transom, I made a prototype carving on a piece of basswood.

I purchased a small set of traditional carving tools for the project. I used a carver’s mallet for most of my carving.
My prototype carving in position on the transom.

After carving my prototype, I made very small adjustments to the letter spacing, then proceeded to transfer the layout directly on the transom. I did the transfer by blackening the reverse of my layout drawing with a soft pencil, then laying it on the transom and tracing over the letters. This gave outlines of each letter on the wood that I could carve from.

I’ve just traced over the letters on the paper layout, transferring them to the transom, and flipped back the layout sheet. The transferred lines are just barely visible in this photo.
Carving workspace. I was able to carve quite comfortably while seated.
I started by carving the straight letters, gradually working up to J, U, and S.
Finished carving. Much later in the construction process, the transom was varnished and gold leaf was applied to the incised surfaces.
The transom/knee assembly in place on the construction molds. I have refined the shape of the transom and roughed out the winding bevels on the edge of the transom. (This photo was taken before “Justine” was carved in the transom.)
Detail showing how the transom knee fits onto construction molds 22 and 23.

With the frames, stem, and transom in place, only the keel plank remains for the backbone to be complete.