Sunday 16 February 2020

Decking

With the boat epoxy sealed on the inside it was time to install the decking.
6mm marine plywood was laid on the deck and cut to the basic shape. To get the locations for the screws, I weighed the plywood down with bricks and climbed inside to mark the positions of the wooden framing.
Decking plywood cut to shape with through holes drilled
Countersinking the screw holes
The plywood was temporarily screwed in place with self-drilling wood screws of a smaller diameter than the final silicon bronze screws. The holes left from the smaller screws became pilot holes for the larger screws in the final glue-up.
Plywood deck installed
The plywood pieces were not quite long enough to reach the front of the boat. I decided this did not matter as I could just patch it up with smaller pieces of plywood.

I have been made aware of a fantastic product called Epoxy E-Glue which I will be using for all my subsequent boat building glue joints. I highly recommend this product for all forms of woodworking! It is simply BoteCote epoxy with a thickening filler already mixed in. More filler has obviously been added to the hardener as it is a 1:1 ratio (compared to the liquid epoxy 1:2 ratio). The advantage of a 1:1 ratio is that the need for accurate measuring is reduced and it becomes very easy to visually determine if you have equal parts by volume. Testing has shown that you simply need to scoop out two approximately equal size dollops of resin and hardener and then mix them together. The E-Glue has thixotropic properties which means that it is quite viscous(thick) at rest but becomes less viscous (more flowing) when stirred together. It is perfect for gluing joints or doing fillets as it can hold its shape without dripping (for about 1 cm). The best thing about it is that it saves time by eliminating the fiddly process of mixing powder into liquid epoxy to get the right glue consistency. It also removes the hazard of breathing in airborne filler dust. 
Epoxy E-Glue
 The deck was screwed and glued in place. There was a lot of climbing into the boat to do the fillets underneath the plywood. I wore safety glasses for this as I certainly do not want epoxy in my eyes. If anyone has a bullet proof method to stop safety glasses fogging up please let me know! I got a lot of epoxy on my clothes in this process.

Gluing the deck onto the boat
The edges of the decking were trimmed flush with the side of the boat. The angle grinder with abrasive disk was used with great care along with my orbital sander. The decking plywood surely increases the strength and rigidity of the boat immensely.
Decking in place and trimmed around edges
  The next step was to work on the decorative decking on the boat. I drew up a plan of the sizes of wood I would require and then went to a timber store to see what species they had.

Working out wood quantities for decorative deck
I decided to use Brazilian mahogany because it is a traditionally used wood on clinker style wooden boats. I love the beautiful brown and perfectly straight grain. I got it machined down on a drum sander to 5mm thick. It wasn't cheap but it was a no-regret purchase! I chose 5mm because it needed to be of sufficient width for sanding without adding too much weight to the boat.

The decorative deck required some precision machining of wood to a tolerance of +- 1mm. A hand held belt sander mounted sideways made for a relative cheap and effective way of accurately machining convex and concave surfaces. In my opinion this is a much more useful tool than a disk sander with is unable to machine concave surfaces.
Belt sander table
 Before installing the decorative deck, I needed to work out if the deck was symmetrical. I created a template for the deck curve. The curve was cut on the bandsaw and then a flexible rod (the type used by electricians for routing cables) was used to draw a smoother curve which was then accurately finished on the belt sander.
Getting smooth curve on template for decorative deck
Using the template to draw the curves on the deck quickly showed that the deck was noticeably asymmetrical. Asymmetry is common in wooden boats and is only a aesthetic problem. 
The figure below illustrates the asymmetry of the deck.

Deck asymmetry
 One solution I considered was to used different curves each side of the boat. The problem with this solution was that the longitudinal deck strips would be different lengths on each side.
Jo had a good idea about how to make the deck symmetrical. The idea was to add a wooden rub strip to the boat that is thicker on one side. The following image demonstrates the concept with the dark line indicating the wooden rub strip to be added. This proved to be a very effective solution!
Fixing deck asymmetry
The wooden rub strip was made of jarrah. The first pieces were cut into thin strips with a triangular cross section to match the angle of the hull. It was quite difficult to match the curvature of the hull and so a lot of epoxy was used to fill in voids between the three laminations. On one side the deck the rub strip protrudes no further than the edge of the deck whereas on the other side it protrudes an additional 10mm. The result was such that the deck is now symmetrical under the scrutiny of an untrained human eye.
Installing wooden rub strip
The rub strips looked quite nice in the end. I am debating whether to ultimately paint them or leave them natural wood colour.
Rub strips at stern
Some fairing was undertaken in the region of the dash to allow the decorative decking to transition smoothly.
Fairing deck near dash
The mahogany was laid on the boat ready for marking out the curves with the template
Laying out mahogany
 The curves were cut to basic size on the bandsaw and sanded to the line with utmost care on the belt sander.
Trimming the mahogany to size.
The mahogany was glued to the deck using the epoxy E-glue and lots of bricks to hold it down. The boat was listing significantly to one side from the weight of the bricks. Nails were used with clamps to hold the mahogany in place and prevent it sliding off the boat.

Gluing on mahogany
Glue in place and about to glue on.
Lots of bricks! Thanks gravity.
Once the mahogany was glued in place, the next step was to install a king plank down the centre of the deck. I ripped a piece of jarrah on the bandsaw and then ran it through the thicknesser to get it down to 5mm thick. The jarrah was obtained from a friend who had removed it during some house renovations. 5mm tile spacers were used to set the distance between the jarrah and mahogany. The 5mm gap will ultimately be filled with epoxy caulking. After some initial apprehension about using jarrah instead of mahogany for the king plank I am very glad I chose the jarrah as it is a good contrast against the mahogany.

King plank installed
 After some deliberation I decided on purchasing Tasmanian oak floorboards for the main decking boards. The oak was machined to the required width on the bandsaw and thicknesser. Each piece had to be resawed to 5mm thick on the bandsaw which turned out to be a significant task. The Tasmanian oak seems to be an incredibly hard wood and I went through two bandsaw blades resawing it all. I laid out the pieces of wood to get symmetrical colouring on each side.

Decking laid out ready for resawing
Tile spacers used for a consistent gap
One by one I resawed the wood, contoured the ends to match the mahogany and glued in place.
Gluing wood in place
I am very happy with the results of the deck - it has exceeded my own expectations and I can't wait to see it with a coat of epoxy and ultimately several layers of varnish.

Looking pretty streamlined
Future GoPro aspect




Saturday 15 February 2020

Finishing Internal Framing

LOTS TO UPDATE YOU ON!
Since July 2019, I have been able to finish the internal framing and make a good start on the deck. I will split the update across two posts of which this is the first.

The junction between the chine logs and the stem are a point of stress concentration so I decided to strengthen them by adding in some blocking. A sliding T-bevel made it easy to get the right angles.
Chine-stem junction strengthening
The external support framing for the hatch was installed to follow the curvature of the rear deck beams. Blocking holds the framing in place.

Hatch framing
The hatch door framing was created such that it will be cut through the middle to create two doors that fold away from each other. The hatch doors will be hinged with stainless steel piano hinges.
Hatch door framing
The hatch door framing is held temporarily in place with screws and some wooden spacers. (The wooden spacers are covered in packing tape to ensure the epoxy cannot stick them to the boat.) Once the deck is installed, the hatch will be cut out.
Hatch framing
Short battens were added between the keel and longitudinal battens to create a suitable floor for the boat. Shaping the short battens was tricky as they needed to conform to the curved shape of the hull. They were glued down with bricks while the epoxy cured. 

Epoxying the battens in place
 There was a bit of work filling up all the gaps between the battens and the plywood with thickened epoxy. As the floor is a place that will see quite a lot of water, I didn't want any gaps beneath battens for water to get into and cause rot. I am pleased with the final result and think it is a much better solution (in terms of weight and looks) than adding plywood flooring.
Battens glued in place
Small boats are required to remain afloat if filled with water and hence buoyancy foam is usually required to lower the combined density of the vessel. The advantage of a wooden boat is that wood typically has a slight positive buoyancy.  I did some calculations to determine a predicted overall density of the boat with the engine and auxiliary componentry. These calculations involved measuring the density of the different woods used and the volume of timber in the boat. I determined an estimate of how much additional foam would be required to ensure the boat does not sink.

Weighing the flotation foam
The logical place for the buoyancy foam is in the front of the boat as this not a very useful place in this particular boat.
Flotation foam installed
Although I made a crazy mess sawing up polystyrene, I ultimately decided not to use the polystyrene because it dissolves in petrol and hence is not an approved material for flotation foam.
I decided to press on with the build and worry about the flotation foam later - even if it means I will have to do lots of climbing into the front of the boat at a later stage.

 The deck beams were notched free hand with the router and blocking was added for the deck battens and dash.
Deck battens and dash glued in place
Deck battens and dash glued in place

The central deck batten was glued and screwed firmly down to the breasthook. There is a significant amount of tension in the central deck batten.

Central deck batten glued to breasthook
The outer deck battens were fastened to the sheer with blocking.
Deck batten fastened to sheer
Deck batten glued in place with blocking to sheer
With all the framing elements in place, the next step was to fair the deck ready for the installation of the decking plywood. The deck was faired with the help of my trusty abrasive disk and a block plane.
Fairing the deck
 Creating the internal framing was a rewarding part of the boat build because it felt like I was achieving a lot in a short time.
Completed internal framing
The next task was a daunting one - sanding the entire inside of the boat. I did a bit of sanding each day after work and got it done in a week. The next step was to give it a generous coating of epoxy. I decided to use Boat Cote with the NY hardener because it has good 'non-yellowing' characteristics and goes on thicker than the West System epoxy.
Bote-Cote epoxy with NY hardener
I did three coats of epoxy sealing and it took almost a whole day! The epoxy was rolled on with a short-nap mohair(or fake mohair) roller. This works a lot better than foam rollers because the foam quickly disintegrates when used with epoxy.

Completed epoxy sealing

Closeup of epoxy sealing
The next blog post will be about the installation of the deck - one of the most exciting steps in the build!