Model Ship Building Hull Planking 450,Boat Models Mini 50,Aluminium Dinghy For Sale Perth Menu - PDF Review
Hull Planking�Sharp Bow The hull is the single largest part of a model ship. Building the hull correctly will determine the final shape and appearance of the model. In your kit movel will find a number of plywood sheets with the laser cut parts. Do this before removing any parts from the plywood sheet. To construct the hull follow these steps.
In the kit there will be a 4mm thick plywood sheet as shown Photo 1. On plan,ing sheet there model ship building hull planking 450 be a number of parts for the model. The keel, bulkheads and transom are sgip parts needed to construct the hull. When fitted and glued together these parts form the skeleton of the hull. The keel, bulkheads BH and transom are identified in Photo 1. It runs longitudinally down the centre of the model from the stem or bow - front�to the stern�the rear�of the model.
The keel is the centre piece of the plankingg and everything is built from it. The bulkheads are fixed at right angles to the keel and provide strength to the hull.
Throughout this course we will refer to the bulkheads as bulkhead frames. The transom is fixed at right angles to whip keel and sits at the stern.
The transom is not a bulkhead but does form part of the hull construction. Remove the keel, bulkhead frames and model ship building hull planking 450 from the 4mm plywood sheet. Use a snap blade plwnking to carefully cut through the tabs holding the parts to the main sheet. Dry fit the bulkhead frames into the model ship building hull planking 450 slots.
Do not glue anything at this stage. Do not force the bulkhead frame into the keel slot. You may need to use a flat needle file to fractionally open the slot in both the keel and bulkhead frame. The fit should be firm but no loose. For larger models it is wise to make a working base as shown Figure 1.
This will shjp to ensure the keel does not become distorted. Cut the slots in the keel supports to correspond with the bulkhead frames.
It is very important to ensure the bulkhead frames are fitted and fixed square to keel. The next step is to fit any bow blocks and stern blocks if the model has. Both of these parts will be on the 4mm plywood sheet. The bow blocks are fitted buileing glued in place either side of the keel at the bow and in front of the first bulkhead frame�see Photo plankihg. These blocks will provide a larger surface area on which to fix the planks at the bow.
The stern blocks are fitted and glued in place either side of the keel at the stern between the last bulkhead frame and the transom�see Photo 6. These blocks are used to provide a larger plankung area on which to fix the planks at the stern and give added strength to the stern area.
Plakning next step is to fit and fix the false deck to the hull skeleton. The false deck is part of the 2mm plywood builsing. Fitting the false deck at this stage will provide added strength to the whole hull structure.
After the bulkhead frames have all been squared to the keel and glued in place and the glue has set it is now time to prepare the bulkhead frames for planking.
Take one of the first layer planks that will be used and lay it across the bulkhead frames. You will see that at the bow the plank does not touch the full face of the bulkhead frame�see Bujlding 9. The same is the shkp at the stern�see Photo Across the mid-ship bulkhead frames the plank will lay flat on the bulkhead frames.
It is most important that the planks lay flat on the full face hjll each bulkhead frame to firstly, allow a strong bond between planks and bulkhead frames to be made and secondly, to ensure there are no bumps or hollows in the hull surface when planked. The tools you will need to prepare the bulkhead frames moodel planking are a good file�one face flat and the other face half round and a sanding block block of wood with coarse sandpaper glued to it.
You will use these to bevel the face of the bulkhead frames to ensure the planks rest of the full face of the bulkhead frames and not just a sharp leading or trailing edge. As you progress use a plank and lay it over the frames in various positions to check the bevel i.
If you do have a hollow model ship building hull planking 450 on model ship building hull planking 450 plankijg more frame s it can be built up using slivers of timber glued to the edge of the frame.
Buildiing your time with this process. The next step to consider is the keel at the stern. Pay particular attention to this area. The total thickness of this area must be such that when planked with all layers of planking it is the same thickness at the stern post and rudder.
Deadwood Area The area between the bottom hsip of the keel and the bottom of the bulkhead frames at the stern is known as the deadwood area�See Photo Depending upon the type of ship that is being modelled the deadwood area may be small or large.
The deadwood area will be planked with two layers of planking consistent with the rest of the hull. The stern post and rudder however will only be planked with the second layer of ppanking. So when the stern post and rudder are eventually fitted there is the plankibg to ensure there is a consistent thickness between stern post, rudder and the stern area of the keel.
The stern post and rudder will be planked with the second layer of planking �say 0. However the keel will be planked with the first layer of planking�say 2mm thick on each side and then planked with the second layer of planking.
Clearly when the buildkng post and rudder are fitted there will be a significant discrepancy between the thickness of the stern area huull the keel and the stern post and rudder. To achieve this you buildihg need to take two steps.
Step model ship building hull planking 450. Before fitting the first layer of planking reduce the thickness of the keel in the area by approximately 1mm on each side�reduce the keel thickness by about half. Step 2. Once the first layer of planking has been fitted then reduce the thickness of this planking by approximately 1mm on each side as well�fractionally model ship building hull planking 450 to meet required thickness.
This will then reduce the total thickness of the keel and first layer of planking in the area to be 4mm thick and thus meeting the requirement for consistency of thickness model ship building hull planking 450 that when the second layer of planking is fitted there will be consistency of thickness between the keel and the stern post and rudder.
We will now turn to focus on the principles of planking the hull of a sharp null model. The approach will be applicable to all sharp bow wooden model ships with a plank planling bulkhead frame construction. There are many approaches to planking the hull of a wooden model ship. As you progress with your modelling you will biulding on a hull planking approach that suits you.
Planking the hull is not technically difficult but it does require some thought and study so that the principles are understood.
It also requires some patience. Once mastered the process is straight forward. It is most important to fit and glue plankint planks in pairs�one on each side of the hull as this will minimise the chance of the keel being distorted or bent.
On the hll you are building spend a few moments with a dressmakers tape measure and measure from the top of the each bulkhead frame around buikding outside of the frame to the toe of the bulkhead frame where it meets the keel. From your measurements it will be clear that if you are to fit one plank along the full length of the hull you will need to taper the planks that fit across the bulkhead frames at the bow of moel model.
It is assumed that the planks laid across the mid-ship bulkhead frames are at their maximum width. We need to determine how many planks will fit into the area between the mldel of these bulkhead frames and the keel. Question: If the width of the planks we are using is model ship building hull planking 450 then how many planks will fit across the midship bulkhead frames to cover it completely?
These planks laid across the mid-ship frames will not be tapered or reduced in width across these bulkhead frames. As 24 planks will have to fit into this area then the plank width at model ship building hull planking 450 frame 2 will need to be reduced.
The question is what will the width of each plank have to be to fit 24 planks into this modep Question: What is the plank width needed at bulkhead frame 2 if 24 planks have to fit into the area? So the buildnig wide at bulkhead frame 2 needs to be 3. The same approach can be applied to determine the plank width at bulkhead frame 3. You will recall that the area between the bottom edge of the keel and the bottom of the bulkhead frames at the stern is known as the deadwood area.
The use of stealers or wedges will be dealt with later. We will model ship building hull planking 450 focus on applying the principles of hull planking. However in model ship building we usually start the first plank shlp one of three positions:.
In some cases the first plank will have its top edge 5 to 10mm below the deck level. This is done to facilitate the construction of bulwarks at a later stage model ship building hull planking 450 in any case it will be parallel to the line of the deck. Many models that feature below deck open gunports, will require the first plank to follow the line of the gunports and it will run immediately above or below a row of gunports.
After determining the location of the first plank you will model ship building hull planking 450 to bend it around the curvature of the hull both fore and aft. You will most probably have to use a plank bender to achieve the required curvature. Take one of the planks to be used and place it in position. Gently spring the plank around the bow. At the point where the plank starts to bend�mark this as point A�Photo Next gently spring the plank around the stern.
At the point where the plank starts to bend mark this as point B�Photo We are going to be buildihg systematic in our preparation for planking.
Take another plank and transfer these two points on to it.
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