shipmodel

Ed, and Jack, thank you for your kind comments. and for all who added likes.
 
I had to make a new band clamp because the tabs were not wide enough to bolt it to the pan. the new one was machined from a solid ring and then a lot of fiddling and filing to get it to spring just right.
 

 

 
I also whipped up a flywheel because it is tough on my fingertips turning the 1/8th shaft all the time to test stuff.
 

 

 
Today I worked on the clutch, it was a bit of a design build affair following the general principles, the gearbox and clutch will be underneath the cover so only the top of the linkage and the lever will need to be as accurate as possible to keep the appearance of the engine looking as the full size engine.
 
I abandoned the cap screw hex and made a hex broach from a 3/16 allen key. first I heated it up and let it cool slowly to take the hardness out of it, then cut a taper on one end of the hex. Next I added the beveled slots to create the cutting faces. I ended up making a second one because I forgot to temper the first one after re hardening it, it cut the first hex through about a half inch length of brass stock, and then I tried a longer piece of brass and it shattered into three.
 

 
Pushing the second one with the vice rather than using the hammer which is how I managed to wreck the first one.
 

 
At the back end of the broach I reduced the diameter before it was hardened so that I could part off the disks one at a time, as the broach was forced through, each time the broach reached the end I put it back in the lathe parted off another disc
 

 
Next I turned a few discs of mild steel off a blank that had been pre drilled for the keeper rods. the steel discs are 5/8 diameter and .020 thick the brass plates are 5/16 diameter and .040 thick. the steel discs will be fixed to the gearbox and rotate about the hex the hex will be pinned to the prop shaft and the brass plated will spin with the hex
 
.
 
Here they are test fitted for size, the wide brass collar is also keyed to the prop shaft and will be the pushing element to squeeze the plates together.
 

 
Time for bed
 
Michael
 
 

Remco, Steve, Joe, and Row thanks for your very kind remarks. Thanks to all who pressed the like button as well.
 
I finished up the clamp ring today and made the actuating lever to open and close the ring, it is quite tiny but was manageable. in order to get the widths that I wanted quickly I spun up a disc on the lathe, bored out the centre hole on the lathe then stood up the rod with the disc still attached in the vice on the mill and offset the other hole .156" then took it back to the lathe and parted it off then used the jewelers saw to cut out the crank.
 

 
Then cleaned it up with some files, then polished it up to a rouge finish and beveled the hub to create the cam.
 

 
Here it is set in position with the spring loaded bolt in the open position the width of the flanges at the bolt are .290"
 

 
And here with the lever in the closed position the width of the flange at the bolt is .250" locking the gearbox casing.
 

 
This is how it works
 
next the rear cam locking collar.
 
Michael
 

Log 29 – lower standing rigging
 
Two weeks ago there were no masts or rigging set up.  The channels weren’t even on.
 
1
 
Today, with the invaluable help of JerseyCityFrankie, the lower standing rigging is done and the upper rigging well on its way.
 
2
 
Here is how it was done. 
 
First came the channels.  They are all situated in the line of the second molding, just under the blue painted bulwarks and above the gunports.  In typical fashion they are stylishly curved at each end, with a cap strip that captures the deadeye “chains”.  They are located such that the foremost deadeye lines up with the center of the mast.  In the photo you can see how I miscalculated this and the main channels had to move aft about half an inch, leaving a gap in the molding that had to be filled later.  Unlike English practice which usually had the supports under the channel, French practice at the time was for wooden knees above the platform.
 
3
 
For the lower masts, the rule of thumb is that deadeyes are half the diameter of the mast, while for upper masts they are more closely the size of the mast.  For this 17mm main mast the deadeyes are 9mm boxwood ones purchased from Model Shipways and stained.  Each hole was opened a little and a lanyard groove cut for each hole on an angle to ease the bend in the lanyard line.  In my restoration work it is almost invariably true that the rigging line fails at these sharp corners in deadeyes and blocks, so wherever possible I will be preparing the rigging fittings this way.
 
The deadeye “chains” are not the three links that are seen on later ships, but solid iron straps that are bolted through the hull at the bottom.  At the top there is a loop that hooks through a raised section of the deadeye strop.  This setup has been seen in contemporary drawings and confirmed by artifacts discovered in the excavation of La Belle, LaSalle’s ship when he explored Texas in 1674.  La Belle is a little early and about half the size of the QAR, but the rigging fittings should be similar so I have decided to go with this.  I will be taking many cues from the La Belle excavation as reported by Glenn Greico in his Master’s dissertation, available here: http://nautarch.tamu.edu/Theses/pdf-files/Grieco-MA2003.pdf
 
My deadeye straps were made from brass strip, with a narrow section ground and bent to a hook, then chemically blackened.  They are pinned to the hull with half inch roundhead steel nails that are glued into holes that angle upward slightly to counteract what will be some pretty high stresses as the shrouds are tensioned.
 
4
 
The metal strops were formed from stiff iron wire.  (Yes, there are straps, strips, and strops.  Sorry about that, but I’ll try to keep them straight).  Here is the jig that I used.  It is for the deadeyes in the tops which have long legs to go through the top, but the principle is the same.
 
5
 
A length of wire is bent around the middle pin, which is there to keep the loop open for the later hook.  The legs pass between the pair of larger pins and are then bent out in a straight line.  A deadeye is held hard against the center point and the legs are bent by hand into the groove till they cross at the top.  Using the legs as handles the strop is spread apart until the deadeye can be popped out.  A bit of epoxy is laid into the strop groove and the deadeye is put back into the strop and rotated as needed to line up properly.  The legs of the strop are clipped short and the ends bent down into the groove with pliers.  When the epoxy dries they are ready for use.  Although the gap in the strop used to worry me, I have never had one open up.  Besides, if the stresses are that great, I would rather that the strop open up than have the entire channel pulled up.
 
With the deadeyes all strapped and stropped to the channels the rigging could begin.  I did this from aft to forward, with one exception.  The very first piece of rigging was the gammoning around the bowsprit.  This is important because all of the stresses and tensions of the standing rigging are anchored here.  You can see the way the lines cross as they wrap from aft to forward on top of the bowsprit, but from forward to aft within the gammon hole in the stem.  The gammoning is finished with a few round turns just above the grating in the head.
 
6
 
You can also see in the photo that the seat of ease has been lined with lead like the scuppers.  I would not otherwise show this feature, but the excavation of the QAR has turned one up, so it has been added.
 
7
 
Beginning with the mizzen mast the deadeyes were turned into the shrouds and given three seizings.  The shrouds were made from linen line sourced from a pool cue manufacturer who uses the line to make non-slip grips.  The line comes in unbleached white, which was dyed with RIT liquid black dye according to the package instructions. 
 
8
 
As was consistent for almost all ships of this period, whatever their origin, the deadeyes were laced with oiled line.  The lacing had to be protected from salt water, but could not be tarred since it must have been adjusted fairly often as the shrouds stretched from the strains of sailing and weather.  This has been represented with a dark brown line rather than the darker black of the tarred shrouds.
 
9   
 
At the mizzen top the shrouds are served as they go over the trestletrees and around the masthead.  Under the top are several blocks for the running rigging and for the crojack yard halyard.  The mizzen stay is served and an eye worked into the end.  A mouse is raised on the stay to form the loop that drops over the masthead and the heads of the shrouds.  The mouse is shaped with the bulbous end down, in the French fashion, so the bulb jams against the eye.  English practice is to have the tapered “tail” of the mouse slide through the eye until it has no more space to run.  I don’t know why there is this difference, or whether one or the other conveys any kind of advantage.
 
10
 
At the lower end I ran into a problem.  Although never detailed, it is clear that the mizzen stay has to set up to a collar on the main mast.  However, if the stay is centered it interferes with the ramshead block and tie for the main spar.  I decided to offset the collar to starboard with a bullseye seized into it.  A set of double blocks were seized into the lower end of the stay and the upper end of the collar, then joined with a lanyard.  The lower end of the collar is belayed to one of the large mast cleats.
 
11
 
The shrouds for the main mast are set up much like those of the mizzen.  There are five heavy shrouds with large deadeyes, and two more on the aft end of the channel for the topmast shrouds. 
 
12
 
For the main shrouds the forward one is served its whole length to protect it from chafing by the mainyard sail.  The other shrouds are served only where they go around the masthead and then for a short distance below the top where they are seized to each other in pairs.  The three futtock shrouds have been hooked into the strops of the upper deadeyes then turned around a futtock stave that is seized across the shrouds.  You can also see the pendants that hang below the top, which are served all over with an eye worked into the end.  They were used as anchor points for hauling up the ship’s boat, supplies, etc. 
 
12a
 
Here in a later photo they are shown with a double block hooked into the eye, the running line goes down to a corresponding block at the deck which is hooked into an eyebolt near the base of the mast.
 
13
 
These hooks were made up in my usual way, by turning an eye into appropriately sized iron wire using orthodontic wire bending pliers.  The wire is then turned back over the pliers and clipped off.  For the larger hooks used for the pendants the clipped end was further tapered with a grinding drum, then the tip was recurved as in full sized practice.
 
14
 
Aft of the mast a set of catharpins are laced to the futtock staves and pull them inward against the strain of the futtock shrouds.  According to R.C. Andersen this diagonal pattern was used by the French, probably to leave space immediately behind the mast for the main yard ties and other rigging lines.  They were installed on all three masts as they were rigged.
 
15
 
The main stay is set up with an eye and mouse, just as the mizzen stay was.  Although this is the largest of the rigging lines on the ship I decided not to worm it, nor to have a preventer stay.  I reasoned that a small ship that had been a slaver for several years and was now in the hands of pirates would not have the spare manpower to maintain lines that would not be called on except in battle, which the pirates avoided at all costs.  The collar is set up in the French fashion, served all over and anchored around the base of the bowsprit.  The two legs are seized together at the bow and then on both sides of the foremast.  Large triple blocks are seized into the ends of the stay and collar and laced together.
 
16
 
In this close-up you can see the blocks, which the French used rather than hearts favored by the English.  You can also see the thumb cleats that secure the collar to the mast on either side.
 
17
 
The standing rigging to the foremast is identical to that of the main mast, except that the stay goes to a collar on the bowsprit.  You can see most of what has been discussed in this one photo.
 
18
 
The fore and main masts had crowsfeet laced from the top to the stay to prevent the lower edge of the topsails from curling under the top and fouling all the lines and blocks that live there.  These were made by first shaping the euphroes out of pear.  They are about ¾” long, with a strop groove cut in all around the edges.  Since there are 16 holes in the forward edges of the tops, the euphroe has 8 corresponding holes.  A strop was seized into the groove with the tails left on which were used to attach the euphroe to the stay.
 
19
 
The crowsfoot was formed by lacing the line up through the hole in the top closest to the center cleat on the starboard side.  A stopper knot under the top prevented it from pulling through, much like the deadeye lanyards.  The line laced down and through the top hole in the euphroe, up and over the lip of the top on the port side, down through the first port side hole, and up the second port side hole.  It continued down and through the second euphroe hole, up over and down the second starboard hole, and up the third starboard hole.  The lacing continued loosely back and forth in this manner until the line reached the outermost starboard hole.  All the lines were tightened and a knot was worked close under the top and the excess line snipped off.  To strengthen it all the lines were painted with dilute PVA glue.
 
20
 
The final element for the lower standing rigging is the ratlines.  The line itself was selected to scale out to ¾” diameter, suitable for the weight of a man, and spaced 10mm apart, which converts to 15” in real space.  As for tying them, many others have gone over the lacing of ratlines, so I will not repeat that here.  Suffice to say that they are attached to the outermost shrouds of each gang with an overhand loop, which makes the smallest bulge around the shroud, and secured to the inner shrouds with clove hitches.  This is not nearly as daunting as it may seem.  Once a rhythm is established it goes rather quickly, like knitting.  Frank and I tied all the ratlines for all the lower shrouds in just four hours.  No special effort was made to have the ratlines sag between the shrouds, but they naturally take on a mild curve as the tying proceeds.  This can be increased or reduced by gently tugging on the appropriate knots until the desired look is achieved.  Once I was happy with the overall look the entire shroud gang was painted with dilute glue and, when the glue was dry, the tails were clipped as close to the shrouds as could be managed.
 
21
 
I hope to have another report out before Christmas, with the completion of the standing rigging and the beginning of hanging the spars and sails. 
 
If not, a very Happy Holiday Season to all and I will be back in the New Year.
 
Dan

Log 29 – lower standing rigging
 
Two weeks ago there were no masts or rigging set up.  The channels weren’t even on.
 
1
 
Today, with the invaluable help of JerseyCityFrankie, the lower standing rigging is done and the upper rigging well on its way.
 
2
 
Here is how it was done. 
 
First came the channels.  They are all situated in the line of the second molding, just under the blue painted bulwarks and above the gunports.  In typical fashion they are stylishly curved at each end, with a cap strip that captures the deadeye “chains”.  They are located such that the foremost deadeye lines up with the center of the mast.  In the photo you can see how I miscalculated this and the main channels had to move aft about half an inch, leaving a gap in the molding that had to be filled later.  Unlike English practice which usually had the supports under the channel, French practice at the time was for wooden knees above the platform.
 
3
 
For the lower masts, the rule of thumb is that deadeyes are half the diameter of the mast, while for upper masts they are more closely the size of the mast.  For this 17mm main mast the deadeyes are 9mm boxwood ones purchased from Model Shipways and stained.  Each hole was opened a little and a lanyard groove cut for each hole on an angle to ease the bend in the lanyard line.  In my restoration work it is almost invariably true that the rigging line fails at these sharp corners in deadeyes and blocks, so wherever possible I will be preparing the rigging fittings this way.
 
The deadeye “chains” are not the three links that are seen on later ships, but solid iron straps that are bolted through the hull at the bottom.  At the top there is a loop that hooks through a raised section of the deadeye strop.  This setup has been seen in contemporary drawings and confirmed by artifacts discovered in the excavation of La Belle, LaSalle’s ship when he explored Texas in 1674.  La Belle is a little early and about half the size of the QAR, but the rigging fittings should be similar so I have decided to go with this.  I will be taking many cues from the La Belle excavation as reported by Glenn Greico in his Master’s dissertation, available here: http://nautarch.tamu.edu/Theses/pdf-files/Grieco-MA2003.pdf
 
My deadeye straps were made from brass strip, with a narrow section ground and bent to a hook, then chemically blackened.  They are pinned to the hull with half inch roundhead steel nails that are glued into holes that angle upward slightly to counteract what will be some pretty high stresses as the shrouds are tensioned.
 
4
 
The metal strops were formed from stiff iron wire.  (Yes, there are straps, strips, and strops.  Sorry about that, but I’ll try to keep them straight).  Here is the jig that I used.  It is for the deadeyes in the tops which have long legs to go through the top, but the principle is the same.
 
5
 
A length of wire is bent around the middle pin, which is there to keep the loop open for the later hook.  The legs pass between the pair of larger pins and are then bent out in a straight line.  A deadeye is held hard against the center point and the legs are bent by hand into the groove till they cross at the top.  Using the legs as handles the strop is spread apart until the deadeye can be popped out.  A bit of epoxy is laid into the strop groove and the deadeye is put back into the strop and rotated as needed to line up properly.  The legs of the strop are clipped short and the ends bent down into the groove with pliers.  When the epoxy dries they are ready for use.  Although the gap in the strop used to worry me, I have never had one open up.  Besides, if the stresses are that great, I would rather that the strop open up than have the entire channel pulled up.
 
With the deadeyes all strapped and stropped to the channels the rigging could begin.  I did this from aft to forward, with one exception.  The very first piece of rigging was the gammoning around the bowsprit.  This is important because all of the stresses and tensions of the standing rigging are anchored here.  You can see the way the lines cross as they wrap from aft to forward on top of the bowsprit, but from forward to aft within the gammon hole in the stem.  The gammoning is finished with a few round turns just above the grating in the head.
 
6
 
You can also see in the photo that the seat of ease has been lined with lead like the scuppers.  I would not otherwise show this feature, but the excavation of the QAR has turned one up, so it has been added.
 
7
 
Beginning with the mizzen mast the deadeyes were turned into the shrouds and given three seizings.  The shrouds were made from linen line sourced from a pool cue manufacturer who uses the line to make non-slip grips.  The line comes in unbleached white, which was dyed with RIT liquid black dye according to the package instructions. 
 
8
 
As was consistent for almost all ships of this period, whatever their origin, the deadeyes were laced with oiled line.  The lacing had to be protected from salt water, but could not be tarred since it must have been adjusted fairly often as the shrouds stretched from the strains of sailing and weather.  This has been represented with a dark brown line rather than the darker black of the tarred shrouds.
 
9   
 
At the mizzen top the shrouds are served as they go over the trestletrees and around the masthead.  Under the top are several blocks for the running rigging and for the crojack yard halyard.  The mizzen stay is served and an eye worked into the end.  A mouse is raised on the stay to form the loop that drops over the masthead and the heads of the shrouds.  The mouse is shaped with the bulbous end down, in the French fashion, so the bulb jams against the eye.  English practice is to have the tapered “tail” of the mouse slide through the eye until it has no more space to run.  I don’t know why there is this difference, or whether one or the other conveys any kind of advantage.
 
10
 
At the lower end I ran into a problem.  Although never detailed, it is clear that the mizzen stay has to set up to a collar on the main mast.  However, if the stay is centered it interferes with the ramshead block and tie for the main spar.  I decided to offset the collar to starboard with a bullseye seized into it.  A set of double blocks were seized into the lower end of the stay and the upper end of the collar, then joined with a lanyard.  The lower end of the collar is belayed to one of the large mast cleats.
 
11
 
The shrouds for the main mast are set up much like those of the mizzen.  There are five heavy shrouds with large deadeyes, and two more on the aft end of the channel for the topmast shrouds. 
 
12
 
For the main shrouds the forward one is served its whole length to protect it from chafing by the mainyard sail.  The other shrouds are served only where they go around the masthead and then for a short distance below the top where they are seized to each other in pairs.  The three futtock shrouds have been hooked into the strops of the upper deadeyes then turned around a futtock stave that is seized across the shrouds.  You can also see the pendants that hang below the top, which are served all over with an eye worked into the end.  They were used as anchor points for hauling up the ship’s boat, supplies, etc. 
 
12a
 
Here in a later photo they are shown with a double block hooked into the eye, the running line goes down to a corresponding block at the deck which is hooked into an eyebolt near the base of the mast.
 
13
 
These hooks were made up in my usual way, by turning an eye into appropriately sized iron wire using orthodontic wire bending pliers.  The wire is then turned back over the pliers and clipped off.  For the larger hooks used for the pendants the clipped end was further tapered with a grinding drum, then the tip was recurved as in full sized practice.
 
14
 
Aft of the mast a set of catharpins are laced to the futtock staves and pull them inward against the strain of the futtock shrouds.  According to R.C. Andersen this diagonal pattern was used by the French, probably to leave space immediately behind the mast for the main yard ties and other rigging lines.  They were installed on all three masts as they were rigged.
 
15
 
The main stay is set up with an eye and mouse, just as the mizzen stay was.  Although this is the largest of the rigging lines on the ship I decided not to worm it, nor to have a preventer stay.  I reasoned that a small ship that had been a slaver for several years and was now in the hands of pirates would not have the spare manpower to maintain lines that would not be called on except in battle, which the pirates avoided at all costs.  The collar is set up in the French fashion, served all over and anchored around the base of the bowsprit.  The two legs are seized together at the bow and then on both sides of the foremast.  Large triple blocks are seized into the ends of the stay and collar and laced together.
 
16
 
In this close-up you can see the blocks, which the French used rather than hearts favored by the English.  You can also see the thumb cleats that secure the collar to the mast on either side.
 
17
 
The standing rigging to the foremast is identical to that of the main mast, except that the stay goes to a collar on the bowsprit.  You can see most of what has been discussed in this one photo.
 
18
 
The fore and main masts had crowsfeet laced from the top to the stay to prevent the lower edge of the topsails from curling under the top and fouling all the lines and blocks that live there.  These were made by first shaping the euphroes out of pear.  They are about ¾” long, with a strop groove cut in all around the edges.  Since there are 16 holes in the forward edges of the tops, the euphroe has 8 corresponding holes.  A strop was seized into the groove with the tails left on which were used to attach the euphroe to the stay.
 
19
 
The crowsfoot was formed by lacing the line up through the hole in the top closest to the center cleat on the starboard side.  A stopper knot under the top prevented it from pulling through, much like the deadeye lanyards.  The line laced down and through the top hole in the euphroe, up and over the lip of the top on the port side, down through the first port side hole, and up the second port side hole.  It continued down and through the second euphroe hole, up over and down the second starboard hole, and up the third starboard hole.  The lacing continued loosely back and forth in this manner until the line reached the outermost starboard hole.  All the lines were tightened and a knot was worked close under the top and the excess line snipped off.  To strengthen it all the lines were painted with dilute PVA glue.
 
20
 
The final element for the lower standing rigging is the ratlines.  The line itself was selected to scale out to ¾” diameter, suitable for the weight of a man, and spaced 10mm apart, which converts to 15” in real space.  As for tying them, many others have gone over the lacing of ratlines, so I will not repeat that here.  Suffice to say that they are attached to the outermost shrouds of each gang with an overhand loop, which makes the smallest bulge around the shroud, and secured to the inner shrouds with clove hitches.  This is not nearly as daunting as it may seem.  Once a rhythm is established it goes rather quickly, like knitting.  Frank and I tied all the ratlines for all the lower shrouds in just four hours.  No special effort was made to have the ratlines sag between the shrouds, but they naturally take on a mild curve as the tying proceeds.  This can be increased or reduced by gently tugging on the appropriate knots until the desired look is achieved.  Once I was happy with the overall look the entire shroud gang was painted with dilute glue and, when the glue was dry, the tails were clipped as close to the shrouds as could be managed.
 
21
 
I hope to have another report out before Christmas, with the completion of the standing rigging and the beginning of hanging the spars and sails. 
 
If not, a very Happy Holiday Season to all and I will be back in the New Year.
 
Dan

Log 29 – lower standing rigging
 
Two weeks ago there were no masts or rigging set up.  The channels weren’t even on.
 
1
 
Today, with the invaluable help of JerseyCityFrankie, the lower standing rigging is done and the upper rigging well on its way.
 
2
 
Here is how it was done. 
 
First came the channels.  They are all situated in the line of the second molding, just under the blue painted bulwarks and above the gunports.  In typical fashion they are stylishly curved at each end, with a cap strip that captures the deadeye “chains”.  They are located such that the foremost deadeye lines up with the center of the mast.  In the photo you can see how I miscalculated this and the main channels had to move aft about half an inch, leaving a gap in the molding that had to be filled later.  Unlike English practice which usually had the supports under the channel, French practice at the time was for wooden knees above the platform.
 
3
 
For the lower masts, the rule of thumb is that deadeyes are half the diameter of the mast, while for upper masts they are more closely the size of the mast.  For this 17mm main mast the deadeyes are 9mm boxwood ones purchased from Model Shipways and stained.  Each hole was opened a little and a lanyard groove cut for each hole on an angle to ease the bend in the lanyard line.  In my restoration work it is almost invariably true that the rigging line fails at these sharp corners in deadeyes and blocks, so wherever possible I will be preparing the rigging fittings this way.
 
The deadeye “chains” are not the three links that are seen on later ships, but solid iron straps that are bolted through the hull at the bottom.  At the top there is a loop that hooks through a raised section of the deadeye strop.  This setup has been seen in contemporary drawings and confirmed by artifacts discovered in the excavation of La Belle, LaSalle’s ship when he explored Texas in 1674.  La Belle is a little early and about half the size of the QAR, but the rigging fittings should be similar so I have decided to go with this.  I will be taking many cues from the La Belle excavation as reported by Glenn Greico in his Master’s dissertation, available here: http://nautarch.tamu.edu/Theses/pdf-files/Grieco-MA2003.pdf
 
My deadeye straps were made from brass strip, with a narrow section ground and bent to a hook, then chemically blackened.  They are pinned to the hull with half inch roundhead steel nails that are glued into holes that angle upward slightly to counteract what will be some pretty high stresses as the shrouds are tensioned.
 
4
 
The metal strops were formed from stiff iron wire.  (Yes, there are straps, strips, and strops.  Sorry about that, but I’ll try to keep them straight).  Here is the jig that I used.  It is for the deadeyes in the tops which have long legs to go through the top, but the principle is the same.
 
5
 
A length of wire is bent around the middle pin, which is there to keep the loop open for the later hook.  The legs pass between the pair of larger pins and are then bent out in a straight line.  A deadeye is held hard against the center point and the legs are bent by hand into the groove till they cross at the top.  Using the legs as handles the strop is spread apart until the deadeye can be popped out.  A bit of epoxy is laid into the strop groove and the deadeye is put back into the strop and rotated as needed to line up properly.  The legs of the strop are clipped short and the ends bent down into the groove with pliers.  When the epoxy dries they are ready for use.  Although the gap in the strop used to worry me, I have never had one open up.  Besides, if the stresses are that great, I would rather that the strop open up than have the entire channel pulled up.
 
With the deadeyes all strapped and stropped to the channels the rigging could begin.  I did this from aft to forward, with one exception.  The very first piece of rigging was the gammoning around the bowsprit.  This is important because all of the stresses and tensions of the standing rigging are anchored here.  You can see the way the lines cross as they wrap from aft to forward on top of the bowsprit, but from forward to aft within the gammon hole in the stem.  The gammoning is finished with a few round turns just above the grating in the head.
 
6
 
You can also see in the photo that the seat of ease has been lined with lead like the scuppers.  I would not otherwise show this feature, but the excavation of the QAR has turned one up, so it has been added.
 
7
 
Beginning with the mizzen mast the deadeyes were turned into the shrouds and given three seizings.  The shrouds were made from linen line sourced from a pool cue manufacturer who uses the line to make non-slip grips.  The line comes in unbleached white, which was dyed with RIT liquid black dye according to the package instructions. 
 
8
 
As was consistent for almost all ships of this period, whatever their origin, the deadeyes were laced with oiled line.  The lacing had to be protected from salt water, but could not be tarred since it must have been adjusted fairly often as the shrouds stretched from the strains of sailing and weather.  This has been represented with a dark brown line rather than the darker black of the tarred shrouds.
 
9   
 
At the mizzen top the shrouds are served as they go over the trestletrees and around the masthead.  Under the top are several blocks for the running rigging and for the crojack yard halyard.  The mizzen stay is served and an eye worked into the end.  A mouse is raised on the stay to form the loop that drops over the masthead and the heads of the shrouds.  The mouse is shaped with the bulbous end down, in the French fashion, so the bulb jams against the eye.  English practice is to have the tapered “tail” of the mouse slide through the eye until it has no more space to run.  I don’t know why there is this difference, or whether one or the other conveys any kind of advantage.
 
10
 
At the lower end I ran into a problem.  Although never detailed, it is clear that the mizzen stay has to set up to a collar on the main mast.  However, if the stay is centered it interferes with the ramshead block and tie for the main spar.  I decided to offset the collar to starboard with a bullseye seized into it.  A set of double blocks were seized into the lower end of the stay and the upper end of the collar, then joined with a lanyard.  The lower end of the collar is belayed to one of the large mast cleats.
 
11
 
The shrouds for the main mast are set up much like those of the mizzen.  There are five heavy shrouds with large deadeyes, and two more on the aft end of the channel for the topmast shrouds. 
 
12
 
For the main shrouds the forward one is served its whole length to protect it from chafing by the mainyard sail.  The other shrouds are served only where they go around the masthead and then for a short distance below the top where they are seized to each other in pairs.  The three futtock shrouds have been hooked into the strops of the upper deadeyes then turned around a futtock stave that is seized across the shrouds.  You can also see the pendants that hang below the top, which are served all over with an eye worked into the end.  They were used as anchor points for hauling up the ship’s boat, supplies, etc. 
 
12a
 
Here in a later photo they are shown with a double block hooked into the eye, the running line goes down to a corresponding block at the deck which is hooked into an eyebolt near the base of the mast.
 
13
 
These hooks were made up in my usual way, by turning an eye into appropriately sized iron wire using orthodontic wire bending pliers.  The wire is then turned back over the pliers and clipped off.  For the larger hooks used for the pendants the clipped end was further tapered with a grinding drum, then the tip was recurved as in full sized practice.
 
14
 
Aft of the mast a set of catharpins are laced to the futtock staves and pull them inward against the strain of the futtock shrouds.  According to R.C. Andersen this diagonal pattern was used by the French, probably to leave space immediately behind the mast for the main yard ties and other rigging lines.  They were installed on all three masts as they were rigged.
 
15
 
The main stay is set up with an eye and mouse, just as the mizzen stay was.  Although this is the largest of the rigging lines on the ship I decided not to worm it, nor to have a preventer stay.  I reasoned that a small ship that had been a slaver for several years and was now in the hands of pirates would not have the spare manpower to maintain lines that would not be called on except in battle, which the pirates avoided at all costs.  The collar is set up in the French fashion, served all over and anchored around the base of the bowsprit.  The two legs are seized together at the bow and then on both sides of the foremast.  Large triple blocks are seized into the ends of the stay and collar and laced together.
 
16
 
In this close-up you can see the blocks, which the French used rather than hearts favored by the English.  You can also see the thumb cleats that secure the collar to the mast on either side.
 
17
 
The standing rigging to the foremast is identical to that of the main mast, except that the stay goes to a collar on the bowsprit.  You can see most of what has been discussed in this one photo.
 
18
 
The fore and main masts had crowsfeet laced from the top to the stay to prevent the lower edge of the topsails from curling under the top and fouling all the lines and blocks that live there.  These were made by first shaping the euphroes out of pear.  They are about ¾” long, with a strop groove cut in all around the edges.  Since there are 16 holes in the forward edges of the tops, the euphroe has 8 corresponding holes.  A strop was seized into the groove with the tails left on which were used to attach the euphroe to the stay.
 
19
 
The crowsfoot was formed by lacing the line up through the hole in the top closest to the center cleat on the starboard side.  A stopper knot under the top prevented it from pulling through, much like the deadeye lanyards.  The line laced down and through the top hole in the euphroe, up and over the lip of the top on the port side, down through the first port side hole, and up the second port side hole.  It continued down and through the second euphroe hole, up over and down the second starboard hole, and up the third starboard hole.  The lacing continued loosely back and forth in this manner until the line reached the outermost starboard hole.  All the lines were tightened and a knot was worked close under the top and the excess line snipped off.  To strengthen it all the lines were painted with dilute PVA glue.
 
20
 
The final element for the lower standing rigging is the ratlines.  The line itself was selected to scale out to ¾” diameter, suitable for the weight of a man, and spaced 10mm apart, which converts to 15” in real space.  As for tying them, many others have gone over the lacing of ratlines, so I will not repeat that here.  Suffice to say that they are attached to the outermost shrouds of each gang with an overhand loop, which makes the smallest bulge around the shroud, and secured to the inner shrouds with clove hitches.  This is not nearly as daunting as it may seem.  Once a rhythm is established it goes rather quickly, like knitting.  Frank and I tied all the ratlines for all the lower shrouds in just four hours.  No special effort was made to have the ratlines sag between the shrouds, but they naturally take on a mild curve as the tying proceeds.  This can be increased or reduced by gently tugging on the appropriate knots until the desired look is achieved.  Once I was happy with the overall look the entire shroud gang was painted with dilute glue and, when the glue was dry, the tails were clipped as close to the shrouds as could be managed.
 
21
 
I hope to have another report out before Christmas, with the completion of the standing rigging and the beginning of hanging the spars and sails. 
 
If not, a very Happy Holiday Season to all and I will be back in the New Year.
 
Dan

Log 29 – lower standing rigging
 
Two weeks ago there were no masts or rigging set up.  The channels weren’t even on.
 
1
 
Today, with the invaluable help of JerseyCityFrankie, the lower standing rigging is done and the upper rigging well on its way.
 
2
 
Here is how it was done. 
 
First came the channels.  They are all situated in the line of the second molding, just under the blue painted bulwarks and above the gunports.  In typical fashion they are stylishly curved at each end, with a cap strip that captures the deadeye “chains”.  They are located such that the foremost deadeye lines up with the center of the mast.  In the photo you can see how I miscalculated this and the main channels had to move aft about half an inch, leaving a gap in the molding that had to be filled later.  Unlike English practice which usually had the supports under the channel, French practice at the time was for wooden knees above the platform.
 
3
 
For the lower masts, the rule of thumb is that deadeyes are half the diameter of the mast, while for upper masts they are more closely the size of the mast.  For this 17mm main mast the deadeyes are 9mm boxwood ones purchased from Model Shipways and stained.  Each hole was opened a little and a lanyard groove cut for each hole on an angle to ease the bend in the lanyard line.  In my restoration work it is almost invariably true that the rigging line fails at these sharp corners in deadeyes and blocks, so wherever possible I will be preparing the rigging fittings this way.
 
The deadeye “chains” are not the three links that are seen on later ships, but solid iron straps that are bolted through the hull at the bottom.  At the top there is a loop that hooks through a raised section of the deadeye strop.  This setup has been seen in contemporary drawings and confirmed by artifacts discovered in the excavation of La Belle, LaSalle’s ship when he explored Texas in 1674.  La Belle is a little early and about half the size of the QAR, but the rigging fittings should be similar so I have decided to go with this.  I will be taking many cues from the La Belle excavation as reported by Glenn Greico in his Master’s dissertation, available here: http://nautarch.tamu.edu/Theses/pdf-files/Grieco-MA2003.pdf
 
My deadeye straps were made from brass strip, with a narrow section ground and bent to a hook, then chemically blackened.  They are pinned to the hull with half inch roundhead steel nails that are glued into holes that angle upward slightly to counteract what will be some pretty high stresses as the shrouds are tensioned.
 
4
 
The metal strops were formed from stiff iron wire.  (Yes, there are straps, strips, and strops.  Sorry about that, but I’ll try to keep them straight).  Here is the jig that I used.  It is for the deadeyes in the tops which have long legs to go through the top, but the principle is the same.
 
5
 
A length of wire is bent around the middle pin, which is there to keep the loop open for the later hook.  The legs pass between the pair of larger pins and are then bent out in a straight line.  A deadeye is held hard against the center point and the legs are bent by hand into the groove till they cross at the top.  Using the legs as handles the strop is spread apart until the deadeye can be popped out.  A bit of epoxy is laid into the strop groove and the deadeye is put back into the strop and rotated as needed to line up properly.  The legs of the strop are clipped short and the ends bent down into the groove with pliers.  When the epoxy dries they are ready for use.  Although the gap in the strop used to worry me, I have never had one open up.  Besides, if the stresses are that great, I would rather that the strop open up than have the entire channel pulled up.
 
With the deadeyes all strapped and stropped to the channels the rigging could begin.  I did this from aft to forward, with one exception.  The very first piece of rigging was the gammoning around the bowsprit.  This is important because all of the stresses and tensions of the standing rigging are anchored here.  You can see the way the lines cross as they wrap from aft to forward on top of the bowsprit, but from forward to aft within the gammon hole in the stem.  The gammoning is finished with a few round turns just above the grating in the head.
 
6
 
You can also see in the photo that the seat of ease has been lined with lead like the scuppers.  I would not otherwise show this feature, but the excavation of the QAR has turned one up, so it has been added.
 
7
 
Beginning with the mizzen mast the deadeyes were turned into the shrouds and given three seizings.  The shrouds were made from linen line sourced from a pool cue manufacturer who uses the line to make non-slip grips.  The line comes in unbleached white, which was dyed with RIT liquid black dye according to the package instructions. 
 
8
 
As was consistent for almost all ships of this period, whatever their origin, the deadeyes were laced with oiled line.  The lacing had to be protected from salt water, but could not be tarred since it must have been adjusted fairly often as the shrouds stretched from the strains of sailing and weather.  This has been represented with a dark brown line rather than the darker black of the tarred shrouds.
 
9   
 
At the mizzen top the shrouds are served as they go over the trestletrees and around the masthead.  Under the top are several blocks for the running rigging and for the crojack yard halyard.  The mizzen stay is served and an eye worked into the end.  A mouse is raised on the stay to form the loop that drops over the masthead and the heads of the shrouds.  The mouse is shaped with the bulbous end down, in the French fashion, so the bulb jams against the eye.  English practice is to have the tapered “tail” of the mouse slide through the eye until it has no more space to run.  I don’t know why there is this difference, or whether one or the other conveys any kind of advantage.
 
10
 
At the lower end I ran into a problem.  Although never detailed, it is clear that the mizzen stay has to set up to a collar on the main mast.  However, if the stay is centered it interferes with the ramshead block and tie for the main spar.  I decided to offset the collar to starboard with a bullseye seized into it.  A set of double blocks were seized into the lower end of the stay and the upper end of the collar, then joined with a lanyard.  The lower end of the collar is belayed to one of the large mast cleats.
 
11
 
The shrouds for the main mast are set up much like those of the mizzen.  There are five heavy shrouds with large deadeyes, and two more on the aft end of the channel for the topmast shrouds. 
 
12
 
For the main shrouds the forward one is served its whole length to protect it from chafing by the mainyard sail.  The other shrouds are served only where they go around the masthead and then for a short distance below the top where they are seized to each other in pairs.  The three futtock shrouds have been hooked into the strops of the upper deadeyes then turned around a futtock stave that is seized across the shrouds.  You can also see the pendants that hang below the top, which are served all over with an eye worked into the end.  They were used as anchor points for hauling up the ship’s boat, supplies, etc. 
 
12a
 
Here in a later photo they are shown with a double block hooked into the eye, the running line goes down to a corresponding block at the deck which is hooked into an eyebolt near the base of the mast.
 
13
 
These hooks were made up in my usual way, by turning an eye into appropriately sized iron wire using orthodontic wire bending pliers.  The wire is then turned back over the pliers and clipped off.  For the larger hooks used for the pendants the clipped end was further tapered with a grinding drum, then the tip was recurved as in full sized practice.
 
14
 
Aft of the mast a set of catharpins are laced to the futtock staves and pull them inward against the strain of the futtock shrouds.  According to R.C. Andersen this diagonal pattern was used by the French, probably to leave space immediately behind the mast for the main yard ties and other rigging lines.  They were installed on all three masts as they were rigged.
 
15
 
The main stay is set up with an eye and mouse, just as the mizzen stay was.  Although this is the largest of the rigging lines on the ship I decided not to worm it, nor to have a preventer stay.  I reasoned that a small ship that had been a slaver for several years and was now in the hands of pirates would not have the spare manpower to maintain lines that would not be called on except in battle, which the pirates avoided at all costs.  The collar is set up in the French fashion, served all over and anchored around the base of the bowsprit.  The two legs are seized together at the bow and then on both sides of the foremast.  Large triple blocks are seized into the ends of the stay and collar and laced together.
 
16
 
In this close-up you can see the blocks, which the French used rather than hearts favored by the English.  You can also see the thumb cleats that secure the collar to the mast on either side.
 
17
 
The standing rigging to the foremast is identical to that of the main mast, except that the stay goes to a collar on the bowsprit.  You can see most of what has been discussed in this one photo.
 
18
 
The fore and main masts had crowsfeet laced from the top to the stay to prevent the lower edge of the topsails from curling under the top and fouling all the lines and blocks that live there.  These were made by first shaping the euphroes out of pear.  They are about ¾” long, with a strop groove cut in all around the edges.  Since there are 16 holes in the forward edges of the tops, the euphroe has 8 corresponding holes.  A strop was seized into the groove with the tails left on which were used to attach the euphroe to the stay.
 
19
 
The crowsfoot was formed by lacing the line up through the hole in the top closest to the center cleat on the starboard side.  A stopper knot under the top prevented it from pulling through, much like the deadeye lanyards.  The line laced down and through the top hole in the euphroe, up and over the lip of the top on the port side, down through the first port side hole, and up the second port side hole.  It continued down and through the second euphroe hole, up over and down the second starboard hole, and up the third starboard hole.  The lacing continued loosely back and forth in this manner until the line reached the outermost starboard hole.  All the lines were tightened and a knot was worked close under the top and the excess line snipped off.  To strengthen it all the lines were painted with dilute PVA glue.
 
20
 
The final element for the lower standing rigging is the ratlines.  The line itself was selected to scale out to ¾” diameter, suitable for the weight of a man, and spaced 10mm apart, which converts to 15” in real space.  As for tying them, many others have gone over the lacing of ratlines, so I will not repeat that here.  Suffice to say that they are attached to the outermost shrouds of each gang with an overhand loop, which makes the smallest bulge around the shroud, and secured to the inner shrouds with clove hitches.  This is not nearly as daunting as it may seem.  Once a rhythm is established it goes rather quickly, like knitting.  Frank and I tied all the ratlines for all the lower shrouds in just four hours.  No special effort was made to have the ratlines sag between the shrouds, but they naturally take on a mild curve as the tying proceeds.  This can be increased or reduced by gently tugging on the appropriate knots until the desired look is achieved.  Once I was happy with the overall look the entire shroud gang was painted with dilute glue and, when the glue was dry, the tails were clipped as close to the shrouds as could be managed.
 
21
 
I hope to have another report out before Christmas, with the completion of the standing rigging and the beginning of hanging the spars and sails. 
 
If not, a very Happy Holiday Season to all and I will be back in the New Year.
 
Dan

Log 29 – lower standing rigging
 
Two weeks ago there were no masts or rigging set up.  The channels weren’t even on.
 
1
 
Today, with the invaluable help of JerseyCityFrankie, the lower standing rigging is done and the upper rigging well on its way.
 
2
 
Here is how it was done. 
 
First came the channels.  They are all situated in the line of the second molding, just under the blue painted bulwarks and above the gunports.  In typical fashion they are stylishly curved at each end, with a cap strip that captures the deadeye “chains”.  They are located such that the foremost deadeye lines up with the center of the mast.  In the photo you can see how I miscalculated this and the main channels had to move aft about half an inch, leaving a gap in the molding that had to be filled later.  Unlike English practice which usually had the supports under the channel, French practice at the time was for wooden knees above the platform.
 
3
 
For the lower masts, the rule of thumb is that deadeyes are half the diameter of the mast, while for upper masts they are more closely the size of the mast.  For this 17mm main mast the deadeyes are 9mm boxwood ones purchased from Model Shipways and stained.  Each hole was opened a little and a lanyard groove cut for each hole on an angle to ease the bend in the lanyard line.  In my restoration work it is almost invariably true that the rigging line fails at these sharp corners in deadeyes and blocks, so wherever possible I will be preparing the rigging fittings this way.
 
The deadeye “chains” are not the three links that are seen on later ships, but solid iron straps that are bolted through the hull at the bottom.  At the top there is a loop that hooks through a raised section of the deadeye strop.  This setup has been seen in contemporary drawings and confirmed by artifacts discovered in the excavation of La Belle, LaSalle’s ship when he explored Texas in 1674.  La Belle is a little early and about half the size of the QAR, but the rigging fittings should be similar so I have decided to go with this.  I will be taking many cues from the La Belle excavation as reported by Glenn Greico in his Master’s dissertation, available here: http://nautarch.tamu.edu/Theses/pdf-files/Grieco-MA2003.pdf
 
My deadeye straps were made from brass strip, with a narrow section ground and bent to a hook, then chemically blackened.  They are pinned to the hull with half inch roundhead steel nails that are glued into holes that angle upward slightly to counteract what will be some pretty high stresses as the shrouds are tensioned.
 
4
 
The metal strops were formed from stiff iron wire.  (Yes, there are straps, strips, and strops.  Sorry about that, but I’ll try to keep them straight).  Here is the jig that I used.  It is for the deadeyes in the tops which have long legs to go through the top, but the principle is the same.
 
5
 
A length of wire is bent around the middle pin, which is there to keep the loop open for the later hook.  The legs pass between the pair of larger pins and are then bent out in a straight line.  A deadeye is held hard against the center point and the legs are bent by hand into the groove till they cross at the top.  Using the legs as handles the strop is spread apart until the deadeye can be popped out.  A bit of epoxy is laid into the strop groove and the deadeye is put back into the strop and rotated as needed to line up properly.  The legs of the strop are clipped short and the ends bent down into the groove with pliers.  When the epoxy dries they are ready for use.  Although the gap in the strop used to worry me, I have never had one open up.  Besides, if the stresses are that great, I would rather that the strop open up than have the entire channel pulled up.
 
With the deadeyes all strapped and stropped to the channels the rigging could begin.  I did this from aft to forward, with one exception.  The very first piece of rigging was the gammoning around the bowsprit.  This is important because all of the stresses and tensions of the standing rigging are anchored here.  You can see the way the lines cross as they wrap from aft to forward on top of the bowsprit, but from forward to aft within the gammon hole in the stem.  The gammoning is finished with a few round turns just above the grating in the head.
 
6
 
You can also see in the photo that the seat of ease has been lined with lead like the scuppers.  I would not otherwise show this feature, but the excavation of the QAR has turned one up, so it has been added.
 
7
 
Beginning with the mizzen mast the deadeyes were turned into the shrouds and given three seizings.  The shrouds were made from linen line sourced from a pool cue manufacturer who uses the line to make non-slip grips.  The line comes in unbleached white, which was dyed with RIT liquid black dye according to the package instructions. 
 
8
 
As was consistent for almost all ships of this period, whatever their origin, the deadeyes were laced with oiled line.  The lacing had to be protected from salt water, but could not be tarred since it must have been adjusted fairly often as the shrouds stretched from the strains of sailing and weather.  This has been represented with a dark brown line rather than the darker black of the tarred shrouds.
 
9   
 
At the mizzen top the shrouds are served as they go over the trestletrees and around the masthead.  Under the top are several blocks for the running rigging and for the crojack yard halyard.  The mizzen stay is served and an eye worked into the end.  A mouse is raised on the stay to form the loop that drops over the masthead and the heads of the shrouds.  The mouse is shaped with the bulbous end down, in the French fashion, so the bulb jams against the eye.  English practice is to have the tapered “tail” of the mouse slide through the eye until it has no more space to run.  I don’t know why there is this difference, or whether one or the other conveys any kind of advantage.
 
10
 
At the lower end I ran into a problem.  Although never detailed, it is clear that the mizzen stay has to set up to a collar on the main mast.  However, if the stay is centered it interferes with the ramshead block and tie for the main spar.  I decided to offset the collar to starboard with a bullseye seized into it.  A set of double blocks were seized into the lower end of the stay and the upper end of the collar, then joined with a lanyard.  The lower end of the collar is belayed to one of the large mast cleats.
 
11
 
The shrouds for the main mast are set up much like those of the mizzen.  There are five heavy shrouds with large deadeyes, and two more on the aft end of the channel for the topmast shrouds. 
 
12
 
For the main shrouds the forward one is served its whole length to protect it from chafing by the mainyard sail.  The other shrouds are served only where they go around the masthead and then for a short distance below the top where they are seized to each other in pairs.  The three futtock shrouds have been hooked into the strops of the upper deadeyes then turned around a futtock stave that is seized across the shrouds.  You can also see the pendants that hang below the top, which are served all over with an eye worked into the end.  They were used as anchor points for hauling up the ship’s boat, supplies, etc. 
 
12a
 
Here in a later photo they are shown with a double block hooked into the eye, the running line goes down to a corresponding block at the deck which is hooked into an eyebolt near the base of the mast.
 
13
 
These hooks were made up in my usual way, by turning an eye into appropriately sized iron wire using orthodontic wire bending pliers.  The wire is then turned back over the pliers and clipped off.  For the larger hooks used for the pendants the clipped end was further tapered with a grinding drum, then the tip was recurved as in full sized practice.
 
14
 
Aft of the mast a set of catharpins are laced to the futtock staves and pull them inward against the strain of the futtock shrouds.  According to R.C. Andersen this diagonal pattern was used by the French, probably to leave space immediately behind the mast for the main yard ties and other rigging lines.  They were installed on all three masts as they were rigged.
 
15
 
The main stay is set up with an eye and mouse, just as the mizzen stay was.  Although this is the largest of the rigging lines on the ship I decided not to worm it, nor to have a preventer stay.  I reasoned that a small ship that had been a slaver for several years and was now in the hands of pirates would not have the spare manpower to maintain lines that would not be called on except in battle, which the pirates avoided at all costs.  The collar is set up in the French fashion, served all over and anchored around the base of the bowsprit.  The two legs are seized together at the bow and then on both sides of the foremast.  Large triple blocks are seized into the ends of the stay and collar and laced together.
 
16
 
In this close-up you can see the blocks, which the French used rather than hearts favored by the English.  You can also see the thumb cleats that secure the collar to the mast on either side.
 
17
 
The standing rigging to the foremast is identical to that of the main mast, except that the stay goes to a collar on the bowsprit.  You can see most of what has been discussed in this one photo.
 
18
 
The fore and main masts had crowsfeet laced from the top to the stay to prevent the lower edge of the topsails from curling under the top and fouling all the lines and blocks that live there.  These were made by first shaping the euphroes out of pear.  They are about ¾” long, with a strop groove cut in all around the edges.  Since there are 16 holes in the forward edges of the tops, the euphroe has 8 corresponding holes.  A strop was seized into the groove with the tails left on which were used to attach the euphroe to the stay.
 
19
 
The crowsfoot was formed by lacing the line up through the hole in the top closest to the center cleat on the starboard side.  A stopper knot under the top prevented it from pulling through, much like the deadeye lanyards.  The line laced down and through the top hole in the euphroe, up and over the lip of the top on the port side, down through the first port side hole, and up the second port side hole.  It continued down and through the second euphroe hole, up over and down the second starboard hole, and up the third starboard hole.  The lacing continued loosely back and forth in this manner until the line reached the outermost starboard hole.  All the lines were tightened and a knot was worked close under the top and the excess line snipped off.  To strengthen it all the lines were painted with dilute PVA glue.
 
20
 
The final element for the lower standing rigging is the ratlines.  The line itself was selected to scale out to ¾” diameter, suitable for the weight of a man, and spaced 10mm apart, which converts to 15” in real space.  As for tying them, many others have gone over the lacing of ratlines, so I will not repeat that here.  Suffice to say that they are attached to the outermost shrouds of each gang with an overhand loop, which makes the smallest bulge around the shroud, and secured to the inner shrouds with clove hitches.  This is not nearly as daunting as it may seem.  Once a rhythm is established it goes rather quickly, like knitting.  Frank and I tied all the ratlines for all the lower shrouds in just four hours.  No special effort was made to have the ratlines sag between the shrouds, but they naturally take on a mild curve as the tying proceeds.  This can be increased or reduced by gently tugging on the appropriate knots until the desired look is achieved.  Once I was happy with the overall look the entire shroud gang was painted with dilute glue and, when the glue was dry, the tails were clipped as close to the shrouds as could be managed.
 
21
 
I hope to have another report out before Christmas, with the completion of the standing rigging and the beginning of hanging the spars and sails. 
 
If not, a very Happy Holiday Season to all and I will be back in the New Year.
 
Dan

Thanks everyone for the comments and Likes.
Its been a long couple of days working on the gearboxes, yes I ended up redoing the casing a couple of times over, I also opted to redo the inner stuff as well. Although the micro gears worked they were not as smooth as I wanted. I ended up using some 48DP "pinion wire" it is actually 10 tooth brass pinion, and is exactly 1/4 inch in diameter. this way I was able to go by the numbers and make the proper distances for the gears to mesh'
 

 
Like this Video
 
In order for the gearbox to be able to lock so that the prop rotates forward there is a clutch that is splined, I have been wracking my brains working at finding a way to make a small spline. This morning as I woke up it hit me.
 

 
Yup the trusty old allen head cap screw has a negative hex to accept the hex key, I matched up a 5/16 cap screw with some 1/4 inch hex brass. the steel collar will revolve in the base of the forward/reverse lever and will move about 1/64 to clamp the prop shaft to the gearbox causing the forward motion. the hex part will be pinned to the prop shaft, and a loose clamping collar will be inserted between the hex collar and the casing of the gearbox, when the lever is pulled back the hex collar will move forward clamping the case and loose collar hence locking the case to the prop-shaft
 

 

 
The revers is accomplished by clamping the gearbox inside a steel band which was made from some steel rings turned up and silver soldered together. As the gearbox is clamped the splined collar also releases the loose clamping collar allowing the gears inside to impart the reverse
 

 
The rings were machined to shape using the mill and the lathe.
 

 

 

 
When I cut the slot on the top of the band it automatically sprung to a smaller diameter which works in my favour because in order to open the band a wedge has to slide forward, this wedge is connected to the forward reverse lever.
 
It is getting there.
 
Michael
 
 
 
 
 
 

As promised the short video of the gearbox in action.
 
michael

Thanks for the likes .
 
I did make the casing today and fitted the gears inside.
 
the gear for the prop through the end that will be shaped with the cone recess.
 

 
The casing with the pinions and the drive gear which will be pinned to the crankshaft.
 

 
The cone end with the pinions dropped in and the gears lined up for the casing to slip over.
 

 
All dry assembled I also spotted three holes for some 0x80 bolts to ensure the casing and cone stay together and do not move relative to each other.
 

 

 
I did check the reverse by rotating the prop to see that it actually worked to this stage. still a long way to go to get it all mounted and working in situ.
 
It did work though so I am pleased about that.
 
Michael

Thanks for all the likes and nice remarks.
 
I did finish up the head today.
 

 

 
It was starting to bug me. I used needle files then 400 wet and dry 600 wet and dry 1200 wet and dry then red rouge on some swede side of a leather polishing stick.
 
Michael

Hi Mark - 
 
Good looking progress.  Your plan for the next step sounds right and should give you a stern that is accurate, true, and strong.  
 
I do wonder about the shape of the doorway to the quarter gallery.  In your drawing it looks much too angled, although this might be an artifact of the angles of the plan.  As a doorway it should be pretty much a rectangle with sides that are perpendicular to the waterline so they will be vertical when the ship is at rest.  
 
Of course, this is a very small nit and probably will not be visible in the completed model. 
 
Looking forward to seeing your continued excellent progress.
 
Dan

Hi Mark - 
 
Good looking progress.  Your plan for the next step sounds right and should give you a stern that is accurate, true, and strong.  
 
I do wonder about the shape of the doorway to the quarter gallery.  In your drawing it looks much too angled, although this might be an artifact of the angles of the plan.  As a doorway it should be pretty much a rectangle with sides that are perpendicular to the waterline so they will be vertical when the ship is at rest.  
 
Of course, this is a very small nit and probably will not be visible in the completed model. 
 
Looking forward to seeing your continued excellent progress.
 
Dan

Thank you for the "likes" and comments.  
 
So far, nothing I thought was "horrible' was.  Easily fixable once I got over the shock of seeing it blown up.
 
This is part that Hahn gives minimal help by "leaving it up the modeler to fit and finish".   Last time, his recommended method didn't work for me.  It involved running the deck clamp to the stern frames and then tying in a couple of vertical stringers.  It just didn't look right nor was my craftsmanship good enough to get it consistant and proper.   So here's the plan:
 

 
Inside the red area is where I'll be focused next.  I'm now going to cut a piece of 1/8" thick cherry to shape, thin it down to the thickness of the frame forward and taper to half thickness where it ties into the stern frame.  It's pretty much a straight line according to the plans from above.. I'll finesse it in and then cut the doorway before mounting it.   The top of the piece (green) is the cut line for when the ship is removed from the buildboard so that's the upper limit.  It needs to be deep enough to catch the deck clamp as I'll need to add a beam on the gun deck as well as the clamp near the top for the quarterdeck.  It should be a lot sturdier for planking the inside and the outside and strengthen that stern framing some.
 
The doing should be a lot simpler than the describing.  We shall see what we shall see on the 'morrow after I fair the inside of the stern timbers. 

I've often heard that that it's not about the destination but the journey that's important.  I agree but this journey is currently being measured in inches and not miles. 
 
I added the timbers the taffrail will sit on and worked up and installed the two outer timbers for the counter. The whole stern area was then rough faired.  Final fairing will be just before planking. 
 
The taffrail timber needs to be shaped after cutting loose the stern (the red curved line).  I still have a lot of shaping to that curve and most can be done while it's in frame and on the build board but I need to set up the rest of the stern framing.   This will be filling in the area between the final cant frame and the stern frames with framing for mounting the quarter galleries and the hatchway from the Great Cabin.   I'm have some ideas on how to do this as this another area that Hahn is a little vague on how to do.
 
Anyway enough out of me, here's the photos.   Feel free to click on and enlarge them to see everything in horrible detail.   
 

 
 

Thank you Ed, Tom, Carl, Bob and Row for your kind comments and to all those who liked the last few entries.
 
I think I could make one of these small stop cocks now in my sleep. I have gone through a number of failures with silver soldering handles mainly because I was using the wrong approach to setting them up to solder.
 
The following sequence shows most of the steps and elements in the stop cocks.
`
First picture shows some 1 inch tapered clock pins cut to length prepared for soldering
 

 
This  one shows the box of tapered steel clock and watchmaking pins that that match the tapered broaches, I decided to use them instead of threading the rotating part and using springs and nuts. 
 

 
The hole through the centre was bored after the threading was done, with a number 59 drill, I used paint thinner as a lubricant, normally I do not use lubricant when machining brass but with these small diameters and threading it helps.
 

 
A finger tip as requested behind the main body of the valve
 

 
Drilling through the body for the steel tapered part. I found it helped to make up a couple of holding jigs with some hex brass rods.
 

 
Using a full pin to test the depth of cut with the taper broach of the valve body
 

 
In the palm of my hand for scale
 

 
The new stopcock on the left with the old one on the right. I Like the shape of the longer handle better and it is also easier to turn, as I am sure they are in full size as well
 

 
Another couple of overall comparison shots for scale
 

 

 
I have all the parts now to make a pair of stop cocks like the new one, plus all of the steps figured out for soldering and final assembly. I think it is also time to finish shaping the top part of the head.
 
Michael
 
 

Built another priming cup and stopcock, it is getting closer still needs some refining.
 

 

 
michael

Jack, Row, Mark, Steve, Matt, Denis and Carl, thanks for the encouragement.
Thanks to all for the likes.
 
I took a break from the drive train today and fabricated the Valve caps these are there to allow the valves to be removed from the head because on the full size engine the head was a single casting. because of the small size of my model I have built the head in two parts. I haven't fully resolved how I will join them yet.
 
The two outside caps which line up with the inlet ports are also set up as priming ports with a couple of little cups above the stop cocks that are threaded into them. like these on the top

 
So I had a bit of fun having a go at making a stop cock to fit into the top.
Looking down into the open valve.
 

 
Now closed
 

 
From the side
 

 

 
The valve cap is threaded 8x36 into the head these were made from some 3/16th rod from Home Depot (nice hard brass)
The valve body is machined up from some 1/8 hex stock, I have a fair bit of it left over from a commercial job 20 years ago (it was a special order locally and I had to buy 16 feet of it) it is also a nice free machining hard brass.
 
The steel insert is a mystery steel (salvaged rods from a library card catalogue system filing cabinet) it seem to machine freely and is 1/8th in diameter.
 
The threads on the valve body is 1x72 with a # 59 drill hole through the length. The cross hole was 1/16 then tapered with the largest clock making tapered broach. the steel was tapered to match on the lathe and threaded 0x80 for the retaining spring and nut. the handle end was shaped with needle files while still on the lathe then heated in a pin vice and bent with some flat pliers.
 
Once the steel was shaped I set it into the brass body put it back into the lathe and drilled through the steel with the handle in the open position using the same #59 drill from the opposite end. It looks a bit crude and now that I know I can make one this small I will set up and make a pair that are a bit closer looking to the ones on the 1:1 engines
 
Michael

Hi again, and thanks for the likes and compliments.  
 
It is going well, I think.  I am trying to create the look of a working ship, rather than one fresh off the building ways.  
 
Now that the foredeck is installed, I turned to the waist.  With the cannon rigged out they can be covered by the gangways.  But first I decided to put in the ropes that go through the hull and belay below the gangways.  It would have been much harder to do them with the gangways in place.  These are the main course tack that goes through the chesstree, and the two sheets that go through the sheaves in the hull.
 
These lines will be some of the larger running rigging ropes and, because of their locations, some of the more visually prominent ones.  They have to be good quality and look like miniature rope.  I could have laid them up on my ropewalk, but I have a few spools of treasured Cuttyhunk Irish linen line (which is no longer available for any price).   The Zane Grey and Natural colors are too white, but a quick run through Minwax wood stain in Ipswitch Pine color makes them look the right shade.
 
1
 
Even examined closely this gives them the look of miniature rope.
 
2
 
I fed the line through the hull openings.  The larger line (C-21) was used for the tacks which belayed to cleats, while the smaller one (C-12) was for the sheets.which belayed to the staghorn kevil.
 
3
 
Although each line is tied off properly, they were all further secured with dilute white glue.  When dry the ends were nipped off and hidden by separate rope coils.  I make these on a simple jig.  A block of soft wood - basswood in this case, but it could be balsa - has several holes drilled in the top face and one or two holes in the front face in the same line.  Removable brass pegs fit into the holes and everything is given several coats of clear finish to keep glue from sticking to it.  Then matching lines are wrapped around the pegs with the ends friction fit into notches in the jig.
 
4
 
As I wrap I randomly make larger and smaller loops and even the occasional figure eight.  When I have the look that I want, the coils are painted with dilute white glue.  Actually, they are first wet down with water, which helps the dilute glue to penetrate the line rather than having it sit on the surface.  When the glue is dry the top peg is removed and the coil peeled up from the jig and trimmed.  Using dilute glue means that the coils are flexible while still holding their shape.
 
5
 
The coils are hung over the belaying points, teased into position where they look like they are hanging with the force of gravity, and secured with white glue.
 
6
 
7
 
In the photos you can see the supporting knees for the gangways.  These were made as before by cutting and shaping a stick and then parting off individual ones.  After locating and installing the forward and aft ones, the gangways were glued in, then the middle two knees for each gangway were installed.  In the photo you can see the ropes that feed through the hull.  I left what I hope is more than enough to reach to the sails, but we will see when the rigging is installed.
 
8
 
The final fittings in the waist were the four ladders from the gun deck up to the gangways.  They were wider at the base than at the top, and were built up as has been detailed before as a stack, then parted off.
 
9
 
After individual ladders were parted off they were cleaned up, stained and installed.
 
10
 
Now that the waist was complete, I turned to the quarterdeck.  The railing that was built up last time was installed, then the whipstaff.  For those not familiar, this is an obsolete steering device that predated the wheel.  It consisted of a rotating fitting called a rowel set into the deck through which a staff passed before it hooked into the end of the tiller arm.  Moving the staff port or starboard turned the rudder.  It was not very efficient, but then most steering was done with the sails during this time.
 
10a
 
A hole was drilled in the deck and a piece of pear cut and sanded to fit.  The fore/aft slot for the rowel was carved into the pear piece, as were indentations for the staff clearance athwartships.  The rowel was turned from maple, and the hole drilled to allow the staff to have a sliding fit.  I set the staff at an offset angle and glued it in place.
 
11
 
You can also see the ladders from the quarterdeck to the poop deck on the roof of the captain's cabin.  These were made up as before, just a little taller than the gangway ladders.  Similarly, the post with sheaves for the lateen halyard was made like the fore and mainyard halyard fittings.  Along the bulwarks are staghorns and pinrails as drawn by Budriot.  I am not completely sold on the pinrails, which do not appear anywhere else on the ship, but they are certainly needed for belaying points.
 
The four 4-pounder cannon were rigged and installed like the 6-pounders on the gun deck.
 
12
 
 Now the deck fittings that were made up almost a year ago could be installed.  These were the companionway house, the officers' bench in front of it, and the two small binnacles.
 
13
 
The ship is now ready for rigging, which will start next month.
 
14
 
Until then, happy Thanksgiving to all and to your families.
 
Dan
 
 
 
 

Thanks for all the likes today.
 
I reached a milestone today and got the main bearings roughed in.
 
First I machined up the keeper blocks. and some studs.
 

 

 
Assembled them in order to ream them for the 1/8th shaft.
 

 
I thought it best to use the hand reamer rather than setting it up in the mill for the machine reamer.
 

 
After thinning down the area on the upper crankcase it all went together quite nicely. and the shaft rotates easily.
 

 
I am still deciding whether to fabricate the crankshaft or machine it from solid bar, either way it will be tricky.
 
Michael
 
 

Ed hopefully the next set of pictures will clarify my description. Mark well it is not a complete machine job there is some soldering however I did not want to anneal the brass that has the bearings braces so opted for soft solder which will be more than adequate for the oil pan.
 
The first picture shows the material being removes that will become the hollow areas'some parts were machined by the numbers and the bulk was just milled away by eyeballing it.
 

 
Next the 1/32 thick sheet was annealed and curved over a steel bar.
 

 
It took a while to get it fitted cleanly, the flat area on the middle bearing wall is to allow the oil to pass through to equalize both chambers.
 

 
The next picture shows the assembled parts cleaned up a bit getting ready to do the soldering.
 

 
Resting the upper part of the crankcase to see the overall scope of the whole engine.
 

 
In the next picture you can see the central cross member.
 

 

 
There is still a fair bit of cleaning up to do but I am generally pleased with the progress.
 
Again thanks to all who have looked in and pressed the like button.
 
Michael
 
 

Hi again, and thanks for the likes and compliments.  
 
It is going well, I think.  I am trying to create the look of a working ship, rather than one fresh off the building ways.  
 
Now that the foredeck is installed, I turned to the waist.  With the cannon rigged out they can be covered by the gangways.  But first I decided to put in the ropes that go through the hull and belay below the gangways.  It would have been much harder to do them with the gangways in place.  These are the main course tack that goes through the chesstree, and the two sheets that go through the sheaves in the hull.
 
These lines will be some of the larger running rigging ropes and, because of their locations, some of the more visually prominent ones.  They have to be good quality and look like miniature rope.  I could have laid them up on my ropewalk, but I have a few spools of treasured Cuttyhunk Irish linen line (which is no longer available for any price).   The Zane Grey and Natural colors are too white, but a quick run through Minwax wood stain in Ipswitch Pine color makes them look the right shade.
 
1
 
Even examined closely this gives them the look of miniature rope.
 
2
 
I fed the line through the hull openings.  The larger line (C-21) was used for the tacks which belayed to cleats, while the smaller one (C-12) was for the sheets.which belayed to the staghorn kevil.
 
3
 
Although each line is tied off properly, they were all further secured with dilute white glue.  When dry the ends were nipped off and hidden by separate rope coils.  I make these on a simple jig.  A block of soft wood - basswood in this case, but it could be balsa - has several holes drilled in the top face and one or two holes in the front face in the same line.  Removable brass pegs fit into the holes and everything is given several coats of clear finish to keep glue from sticking to it.  Then matching lines are wrapped around the pegs with the ends friction fit into notches in the jig.
 
4
 
As I wrap I randomly make larger and smaller loops and even the occasional figure eight.  When I have the look that I want, the coils are painted with dilute white glue.  Actually, they are first wet down with water, which helps the dilute glue to penetrate the line rather than having it sit on the surface.  When the glue is dry the top peg is removed and the coil peeled up from the jig and trimmed.  Using dilute glue means that the coils are flexible while still holding their shape.
 
5
 
The coils are hung over the belaying points, teased into position where they look like they are hanging with the force of gravity, and secured with white glue.
 
6
 
7
 
In the photos you can see the supporting knees for the gangways.  These were made as before by cutting and shaping a stick and then parting off individual ones.  After locating and installing the forward and aft ones, the gangways were glued in, then the middle two knees for each gangway were installed.  In the photo you can see the ropes that feed through the hull.  I left what I hope is more than enough to reach to the sails, but we will see when the rigging is installed.
 
8
 
The final fittings in the waist were the four ladders from the gun deck up to the gangways.  They were wider at the base than at the top, and were built up as has been detailed before as a stack, then parted off.
 
9
 
After individual ladders were parted off they were cleaned up, stained and installed.
 
10
 
Now that the waist was complete, I turned to the quarterdeck.  The railing that was built up last time was installed, then the whipstaff.  For those not familiar, this is an obsolete steering device that predated the wheel.  It consisted of a rotating fitting called a rowel set into the deck through which a staff passed before it hooked into the end of the tiller arm.  Moving the staff port or starboard turned the rudder.  It was not very efficient, but then most steering was done with the sails during this time.
 
10a
 
A hole was drilled in the deck and a piece of pear cut and sanded to fit.  The fore/aft slot for the rowel was carved into the pear piece, as were indentations for the staff clearance athwartships.  The rowel was turned from maple, and the hole drilled to allow the staff to have a sliding fit.  I set the staff at an offset angle and glued it in place.
 
11
 
You can also see the ladders from the quarterdeck to the poop deck on the roof of the captain's cabin.  These were made up as before, just a little taller than the gangway ladders.  Similarly, the post with sheaves for the lateen halyard was made like the fore and mainyard halyard fittings.  Along the bulwarks are staghorns and pinrails as drawn by Budriot.  I am not completely sold on the pinrails, which do not appear anywhere else on the ship, but they are certainly needed for belaying points.
 
The four 4-pounder cannon were rigged and installed like the 6-pounders on the gun deck.
 
12
 
 Now the deck fittings that were made up almost a year ago could be installed.  These were the companionway house, the officers' bench in front of it, and the two small binnacles.
 
13
 
The ship is now ready for rigging, which will start next month.
 
14
 
Until then, happy Thanksgiving to all and to your families.
 
Dan
 
 
 
 

Hi again, and thanks for the likes and compliments.  
 
It is going well, I think.  I am trying to create the look of a working ship, rather than one fresh off the building ways.  
 
Now that the foredeck is installed, I turned to the waist.  With the cannon rigged out they can be covered by the gangways.  But first I decided to put in the ropes that go through the hull and belay below the gangways.  It would have been much harder to do them with the gangways in place.  These are the main course tack that goes through the chesstree, and the two sheets that go through the sheaves in the hull.
 
These lines will be some of the larger running rigging ropes and, because of their locations, some of the more visually prominent ones.  They have to be good quality and look like miniature rope.  I could have laid them up on my ropewalk, but I have a few spools of treasured Cuttyhunk Irish linen line (which is no longer available for any price).   The Zane Grey and Natural colors are too white, but a quick run through Minwax wood stain in Ipswitch Pine color makes them look the right shade.
 
1
 
Even examined closely this gives them the look of miniature rope.
 
2
 
I fed the line through the hull openings.  The larger line (C-21) was used for the tacks which belayed to cleats, while the smaller one (C-12) was for the sheets.which belayed to the staghorn kevil.
 
3
 
Although each line is tied off properly, they were all further secured with dilute white glue.  When dry the ends were nipped off and hidden by separate rope coils.  I make these on a simple jig.  A block of soft wood - basswood in this case, but it could be balsa - has several holes drilled in the top face and one or two holes in the front face in the same line.  Removable brass pegs fit into the holes and everything is given several coats of clear finish to keep glue from sticking to it.  Then matching lines are wrapped around the pegs with the ends friction fit into notches in the jig.
 
4
 
As I wrap I randomly make larger and smaller loops and even the occasional figure eight.  When I have the look that I want, the coils are painted with dilute white glue.  Actually, they are first wet down with water, which helps the dilute glue to penetrate the line rather than having it sit on the surface.  When the glue is dry the top peg is removed and the coil peeled up from the jig and trimmed.  Using dilute glue means that the coils are flexible while still holding their shape.
 
5
 
The coils are hung over the belaying points, teased into position where they look like they are hanging with the force of gravity, and secured with white glue.
 
6
 
7
 
In the photos you can see the supporting knees for the gangways.  These were made as before by cutting and shaping a stick and then parting off individual ones.  After locating and installing the forward and aft ones, the gangways were glued in, then the middle two knees for each gangway were installed.  In the photo you can see the ropes that feed through the hull.  I left what I hope is more than enough to reach to the sails, but we will see when the rigging is installed.
 
8
 
The final fittings in the waist were the four ladders from the gun deck up to the gangways.  They were wider at the base than at the top, and were built up as has been detailed before as a stack, then parted off.
 
9
 
After individual ladders were parted off they were cleaned up, stained and installed.
 
10
 
Now that the waist was complete, I turned to the quarterdeck.  The railing that was built up last time was installed, then the whipstaff.  For those not familiar, this is an obsolete steering device that predated the wheel.  It consisted of a rotating fitting called a rowel set into the deck through which a staff passed before it hooked into the end of the tiller arm.  Moving the staff port or starboard turned the rudder.  It was not very efficient, but then most steering was done with the sails during this time.
 
10a
 
A hole was drilled in the deck and a piece of pear cut and sanded to fit.  The fore/aft slot for the rowel was carved into the pear piece, as were indentations for the staff clearance athwartships.  The rowel was turned from maple, and the hole drilled to allow the staff to have a sliding fit.  I set the staff at an offset angle and glued it in place.
 
11
 
You can also see the ladders from the quarterdeck to the poop deck on the roof of the captain's cabin.  These were made up as before, just a little taller than the gangway ladders.  Similarly, the post with sheaves for the lateen halyard was made like the fore and mainyard halyard fittings.  Along the bulwarks are staghorns and pinrails as drawn by Budriot.  I am not completely sold on the pinrails, which do not appear anywhere else on the ship, but they are certainly needed for belaying points.
 
The four 4-pounder cannon were rigged and installed like the 6-pounders on the gun deck.
 
12
 
 Now the deck fittings that were made up almost a year ago could be installed.  These were the companionway house, the officers' bench in front of it, and the two small binnacles.
 
13
 
The ship is now ready for rigging, which will start next month.
 
14
 
Until then, happy Thanksgiving to all and to your families.
 
Dan
 
 
 
 

Hi again, and thanks for the likes and compliments.  
 
It is going well, I think.  I am trying to create the look of a working ship, rather than one fresh off the building ways.  
 
Now that the foredeck is installed, I turned to the waist.  With the cannon rigged out they can be covered by the gangways.  But first I decided to put in the ropes that go through the hull and belay below the gangways.  It would have been much harder to do them with the gangways in place.  These are the main course tack that goes through the chesstree, and the two sheets that go through the sheaves in the hull.
 
These lines will be some of the larger running rigging ropes and, because of their locations, some of the more visually prominent ones.  They have to be good quality and look like miniature rope.  I could have laid them up on my ropewalk, but I have a few spools of treasured Cuttyhunk Irish linen line (which is no longer available for any price).   The Zane Grey and Natural colors are too white, but a quick run through Minwax wood stain in Ipswitch Pine color makes them look the right shade.
 
1
 
Even examined closely this gives them the look of miniature rope.
 
2
 
I fed the line through the hull openings.  The larger line (C-21) was used for the tacks which belayed to cleats, while the smaller one (C-12) was for the sheets.which belayed to the staghorn kevil.
 
3
 
Although each line is tied off properly, they were all further secured with dilute white glue.  When dry the ends were nipped off and hidden by separate rope coils.  I make these on a simple jig.  A block of soft wood - basswood in this case, but it could be balsa - has several holes drilled in the top face and one or two holes in the front face in the same line.  Removable brass pegs fit into the holes and everything is given several coats of clear finish to keep glue from sticking to it.  Then matching lines are wrapped around the pegs with the ends friction fit into notches in the jig.
 
4
 
As I wrap I randomly make larger and smaller loops and even the occasional figure eight.  When I have the look that I want, the coils are painted with dilute white glue.  Actually, they are first wet down with water, which helps the dilute glue to penetrate the line rather than having it sit on the surface.  When the glue is dry the top peg is removed and the coil peeled up from the jig and trimmed.  Using dilute glue means that the coils are flexible while still holding their shape.
 
5
 
The coils are hung over the belaying points, teased into position where they look like they are hanging with the force of gravity, and secured with white glue.
 
6
 
7
 
In the photos you can see the supporting knees for the gangways.  These were made as before by cutting and shaping a stick and then parting off individual ones.  After locating and installing the forward and aft ones, the gangways were glued in, then the middle two knees for each gangway were installed.  In the photo you can see the ropes that feed through the hull.  I left what I hope is more than enough to reach to the sails, but we will see when the rigging is installed.
 
8
 
The final fittings in the waist were the four ladders from the gun deck up to the gangways.  They were wider at the base than at the top, and were built up as has been detailed before as a stack, then parted off.
 
9
 
After individual ladders were parted off they were cleaned up, stained and installed.
 
10
 
Now that the waist was complete, I turned to the quarterdeck.  The railing that was built up last time was installed, then the whipstaff.  For those not familiar, this is an obsolete steering device that predated the wheel.  It consisted of a rotating fitting called a rowel set into the deck through which a staff passed before it hooked into the end of the tiller arm.  Moving the staff port or starboard turned the rudder.  It was not very efficient, but then most steering was done with the sails during this time.
 
10a
 
A hole was drilled in the deck and a piece of pear cut and sanded to fit.  The fore/aft slot for the rowel was carved into the pear piece, as were indentations for the staff clearance athwartships.  The rowel was turned from maple, and the hole drilled to allow the staff to have a sliding fit.  I set the staff at an offset angle and glued it in place.
 
11
 
You can also see the ladders from the quarterdeck to the poop deck on the roof of the captain's cabin.  These were made up as before, just a little taller than the gangway ladders.  Similarly, the post with sheaves for the lateen halyard was made like the fore and mainyard halyard fittings.  Along the bulwarks are staghorns and pinrails as drawn by Budriot.  I am not completely sold on the pinrails, which do not appear anywhere else on the ship, but they are certainly needed for belaying points.
 
The four 4-pounder cannon were rigged and installed like the 6-pounders on the gun deck.
 
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 Now the deck fittings that were made up almost a year ago could be installed.  These were the companionway house, the officers' bench in front of it, and the two small binnacles.
 
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The ship is now ready for rigging, which will start next month.
 
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Until then, happy Thanksgiving to all and to your families.
 
Dan
 
 
 
 

Hello again and, as always, thanks for the likes and comments.
 
This time I turn to the details of the foredeck.  Although the basic structure and planking has been completed for a while, it was never attached to the hull because various components under the deck had to be completed first.  These included the guns that were done last time, the anchor bitts, and the post with sheaves for the foreyard halyard and tie system.
 
Here is the system on a contemporary model.  This is the one for the main yard, but the pieces are the same: a post attached to the deck with a number of sheaves for the halyard line; an upper ramshead block with matching sheaves and a transverse hole for the tie which comes down from the masthead; and the halyard line running between the two.  As you can see, the line goes through the deck and must pass through a series of holes or a scuttle of some sort.  There are no clear photos of this detail that I could find.
 
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I also had to figure out how to install them fully rigged, since it would be quite difficult to get to the posts once the upper decks were in place.  Even RC Anderson recommends fully rigging them, then tensioning the system with the tie and not the halyard.  Here is what I came up with.
 
I started with the ramshead blocks.  I made these up with false sheaves rather than trying to build them up since they would be rigged and the sheaves hidden under the running line.   A series of five holes was drilled in a sized piece of hardwood in two matching horizontal lines using a Dremel drill press.  Then a thin grinding bitt was laid against the wood to cut a channel from one hole to the other.  You can see where I am starting the process in the right side hole with the others in later stages of carving.
 
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These channels were carefully deepened and straightened, then angled at the ends of the cut until they approximately replicated the curve of the sheave that is not there.  This was done on both sides of the workpiece.  Now the blocks will accept the line which will look as though it is running around a circular sheave. 
 
Once all the slots were cut and cleaned up, the block was parted off to length and taken down to the ramshead shape with a sanding drum.  Here are the two for this model.  I do see that the tops of the blocks need some further shaping to match the one in the earlier photo.
 
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In a similar way the posts that will go under the foredeck and quarterdeck were cut, pierced, and shaped.  The one on the right is an early example, before my technique was perfected, and which would be replaced if it were not going to be hidden under the foredeck.  The cut at its base is so it can fit over the knee of the anchor bitts, which brings it to the starboard side of the centerline.
 
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And here are both sets, which were made up at the same time to maximize consistency.  You can see how the posts will be secured with brass rods into the deck for strength.
 
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Here is the foreyard set fully rigged.  Sharp eyes will notice that there are only 4 loops of the halyard line and not 5.  When I went to install the set initially it really seemed too large for the ship.  I went back to my photos of contemporary models and found that the 5-sheave blocks were used on the largest three-deck warships.  This small frigate would not have needed such lifting power, so I took the finished pieces to the table saw and sliced off one side of all the pieces to eliminate one sheave.  This had the happy result that the scuttles in the decks did not have to be quite as large.  More on this later.
 
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The next detail for the foredeck was the railing to keep sailors from falling into the waist and to house the ship’s bell.  I wanted to build and install it now so I could secure it from beneath the deck with metal pins before the foredeck was put on the model.  Here is a photo of a fairly fancy one from a model of a French ship of a somewhat later period.  Although this one is continuous from port to starboard, Budriot shows two gaps which will be used later to house spare spars and topmasts, so there is a long central section with two short sections flanking it.
 
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I decided that my railing would have balusters set in channels for the body of the railing, with posts that went up through a caprail and ended in shaped timberheads that could be used to secure rigging lines.  The first task was to make a fairly large number of identical balusters without spending days turning them on a miniature lathe, which I don’t have.  I opted for the mill-and-part-off method that has worked for me with support knees, shingles, and other repetitive parts.
 
On the left is the baluster shape that I selected from internet images, then the cross section of the workpiece after milling channels with the Preac table saw and rounding off as needed with a carving bitt.  On the right is the side view of the workpiece with the parallel channels cut by the saw.  Note that the grain runs vertically.
 
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Here the individual balusters are being parted off the workpiece on the Preac.  It is set up with the tall vertical fence and the thinnest, finest blade that I have.  The workpiece is being fed into the blade and is supported by a sacrificial stick held against the miter gauge.  This support stick is taller than the blade height so the end remains attached and I can push the workpiece through repeatedly, taking off identical slices.
 
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Here are four of the balusters set into upper and lower channels ready for the end posts and caprail.
 
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And here are a set of completed railing sections ready for installation.  Note that four of them are angled slightly to match the round-up of the deck.  
 
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However, when I went to install them I realized that I had made a major mistake.  I made the railing about 40 inches tall in scale, enough to keep a man from falling over it into the waist.  This looked terrible against the size of other fittings.  I went and rechecked my dimensions to find that the railing is really only 18-24 inches tall.  Proof, once again, that if it doesn’t look right, it is probably wrong.
 
Instead, a new workpiece was shaped and short balusters were parted off.  Here you can see the relative heights of the old and new railings. 
 
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You can also see that the new workpiece did not cut as cleanly as the old one.  I gave them a few coats of finish and, when dry, took off the wood fuzz with a thin pointed grinding bitt.  Here is the final set of railings, the upper ones for the quarterdeck and the lower ones with the belfry for the foredeck. 
 
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So here is the foredeck ready for installation on the model.  You can see not only the railing and the scuttle for the halyard, but some additional features whose construction is pretty straightforward:  the smokestack for the galley stove, a small grating for the galley, a set of riding bitts with sheaves (also quite low to the deck), the mast coat, eyebolts for hooked rigging blocks, and that curious rigging fitting with ten cleats set onto the deck.
 
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And here it is, installed.  Newly added are the catheads for the anchors, which are secured to the deck with headed bolts and the timberheads around the low bulwarks, secured with metal pins.  You can also see how the ramshead block was led up through the scuttle.  It was a tight squeeze but it made it, and then the scuttle was mostly closed off with wood battens to help keep the lower deck dry.
 
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Next time, the gangways and quarterdeck, including the whipstaff.
 
Be well
 
Dan