shipmodel

Thank you all for the likes.
Brian, Jack, Mark  thanks for the kind comments.
Ed the more I think about laminating the ribbands the more I like the idea.
 
I discovered that at this small scale there is little room for error. When I removed the support plugs today after finishing the shaping and a few more holes for the water inlet and inspection hole in the front side, I saw that the port holes had in fact penetrated the wall of the water jacket. the space inside the jacket is large enough that I decided to add a plate that will get sweated in place.
 
the first picture shows the two crescent shaped holes from the port drill breaking through the wall.
 

 
The sleeve insert is machined from some  hard 3/4 brass rod the wall thickness was .020"  I sliced off two rings then cut those further to just fit enough that the curve is slightly greater than half the diameter inside. By doing it this way they are snug enough that they do not fall out.
 

 
The next picture shows the inspection hole which still need cleaning up and the cylinder liner positioned to show the water circulation cavity. I will make the base plate before the liners are finalized. It has occurred to me that I will need a pretty good filter system to keep any debris out of the water system.
 

 
The next photo shows the top of the cylinder with the head removed the holes still need to be reamed 13/32 for the stainless liners. I am still contemplating making these two parts able to be separated I think I have enough space to add some small long bolts up through the water jacked that way they would be hidden.
 

 

 
I think I need a break from metalwork and do a little whittling of the boxwood stem and sternpost.
 
Michael
 
 

Thank you for all the likes, And Bob and Steve for your comments, its been a long couple of days fiddling with some finicky numbers, I had to make a couple of small modifications to my Mill Drill so that I could use some dial verniers as read out dials for the table travel. I had already set up the depth one a few years ago and because I have slip dials on the mill I have been able to manage up until now . However machining these tiny dimensions with a centre Zero was challenging to say the least. so now I can clip in the vernier and use it as a poor mans DRO (digital read out, only this is an Analog read out )
First I cut a piece of 1 inch square brass and then re cut it to 1.375 x 1 x .625 inches the first task was to bore the main holes to form the inside of the water jacket shell these are .625 diameter and almost 5/8 deep. then bored the holes that will mate with the combustion chamber in the top piece. After the big hole were machined I flipped it over to reduce some of the metal and then machines the small holes for the valves and water passages to the top part of the head.
Next I made a couple of support keepers out of some 3/4 diameter brass rod to fill the bore holes and reduced the diameter at the top to use as location stubs for the top part this also allowed me to thread some 10 - 32 cap screws through the spark plug holes  to hold the whole shebang together. after the inlet and exhaust ports were machined which seemed to take forever, I was finally able to get on with some finish filing.
 
 

 
I like to have a ground safe edge on some of the files it really helps to keep things square
 

 
The parts are beginning to look like the top of the engine.
 

 
The valve rods will be fabricated from some largish sewing needles these are .046 inches in diameter which works perfectly, they obviously need some work yet.
 

 
Time for a break.
 
Michael

Hi Mark - 
 
Just catching up with your build.  Looking mighty nice.  Let me add my compliments to all the others.  V2 is coming along beautifully.  I took your last photo, enlarged it and flipped it over to really appreciate it.  The Hahn method may build the hull upside down, but I can see it better right side up.  Top quality work, my friend.
 
Will you be carving the details with your light saber?
 
Dan

Hi again, and best wishes for a happy Friday the 13th –
 
Thanks for the compliments, likes, and wishes for my new grandson.  Caleb and his mother are both doing well and send their thanks as well.
 
Several smaller items were completed in this segment.  The first was the forward bulkhead for the captain’s cabin.  There are no plans or drawings of it in either of the plans that I am using, so I designed it to be functional, using some of the same details as on the stern and quarter badges. 
 

 
There is a chair rail molding with wainscoting below.  This was not scribed but laid up from individual planks.  The door is of a typical 17th Century style, with H-L hinges and decorative cross banding.  The windows are flanked by fluted columns which were built up as before.  To each side there will be a ladder to the poop deck, which have not yet been constructed.  The bulkhead is still removable at this stage, and may have to be moved back a little to give me room to install the whipstaff which will go between the cabin and the mizzen mast.
 
I have not decided whether to paint the wainscoting blue and add some decorative details.  What does the group think?
 
The cabin was also dressed up by closing in the aftmost gunport with a decorative shutter.  The central circle was made by stiffening a 1/8” birch dowel with a drop of thin cyano on its cut end.  When dry the center of the dowel was drilled out to a depth of about ¼” and then the circles were parted off on the table saw.
 

 
Next I turned to the first of the rigging fixtures – the staghorns.  Here is a section of my plans for the inner bulwarks, which was made by using PhotoShop to combine the plans from the Advice Prize with details from Le Mercure.  You can see three of the four staghorns that will be mounted on each side.
 

 
Here is an enlargement of the plans for the staghorns.  Note in the side view the extreme angles that have to be used to match the 13 degree tumblehome of the bulwarks.
 

 
I started by carving a length of pear to the shape of the horns of the fitting.  The piece was just under 3 inches long, which gave me extra material for the next model as well.  Here you can see three horns that have been parted off.  They are a little heavy, but were later reduced with a small sanding drum.
 

 
The shelf that supports the horns was built up in two parts.  In the larger, back piece, two notches were nibbled out for the horns before being closed in by the front piece.  In the insert enlargement you can see how the curve of the table saw blade gave me an angle to the back of the notch that is needed to allow the horns to angle to match the tumblehome.
 

 
With the horns inserted in the shelf the bottom piece had two notches hollowed out in its back face for the lower ends of the horns.
 

 
The lower piece was flipped over and the horns glued into the notches.  The lower piece was then sanded to its clamshell shape and the upper ends of the horns were refined to angle up and out.  You can see the differences from the left fitting to the completed one on the right.
 

 
Here you can see a finished staghorn sitting on an angled scrap block to check that the shelf will be horizontal when mounted on the bulwark.
 

 
Here is the complete set of eight staghorns for the first model.
 

 
And here is the first one mounted in the waist ready for the lines that run through the hull sheaves for the main and spritsail sheets.
 

 
Next I turned to the gunport lids for the open gunports on the port side of the ship.  I have detailed their construction before in the section on the test gun station.  This one is for the forwardmost port, which is why the planking runs at an angle to match the hull planking.  The hinge straps are blackened brass strip secured with three iron pins.  The ends of the strips were ground to about half their width so they could fit into mounting holes in the hull.
 

 
The strips were all made to a uniform size in a simple jig.  A brass strip was trapped between two guides and the locations of the holes for the mounting pins was marked off.  Once the holes were drilled the strip was clipped to length at the edge of the jig.  I found that without pre-drilling these holes it was nearly impossible for me to drill them cleanly once the hinge strap was mounted on the gunport lid.
 

 
Each lid was marked for its proper location and the mounting holes were drilled just above the open gunport.  With the lids slid into the holes the brass could be gently bent so every lid was at the same angle.  This will be a significant advantage once they are permanently mounted, as they will be much less prone to snapping off when I bump into them (which I am sure that I will).  Here they are towards the bow - - -
 

 
And the stern.
 

 
To check them, I set the guns in place.  Here is what they look like in the waist as seen from outboard - - -
 

 
And along the length of the ship.
 

 
Finally, the entire broadside. 
 

 
I was happy with the look of the model, so the guns and gunport lids were removed to safe storage until the interior deck fittings are built and mounted.
 
The first of these was the riding bitts for the anchor cable.  As you can see from the plans it incorporates the 5-sheave post for the rigging to the ramshead block that raises and lowers the foreyard.
 

 
Construction was straightforward, with each piece cut and shaped, then notched and pinned in place.  The sheaves in the post are non-working, and made by drilling 5 pairs of holes through the post with a 0.040” drill in a miniature drill press.  The bitt was then put into a Dremel and the sheave slot between the holes was carved out.  Care has to be taken to allow for the right-hand torque of the bitt, but a little practice yields good results.
 

 
The next rigging fitting that I turned to were the multiple cleat ‘logs’ that sit just aft of the fore and main masts.  These were discussed earlier in the build log as well. 
 
Construction here was straightforward as well.  Once the dimensions were decided, two pieces of cherry were cut and the ends finished with slopes.  The underside of each was sanded to match the camber of the deck.  Ten slots were cut in the underside for the lines to run through.  It is quite probably that these slots would have been radiused on each side of the log so the line would run smoothly under the fixture.  The upper corners of the log were eased as well, as recommended by JerseyCityFrankie.  Matching photoetched brass cleats were obtained from Bluejacket, blackened and mounted. 
 

 
Here is the one on the quarterdeck aft of the main mast.  It looks good as is, although I clearly have to clean the deck which is getting very dusty.
 

 
Finally, to check that things are headed in the right direction, and to give my spirits a needed lift, I mounted the decks and the lower masts.  Hull construction and detailing have taken much, much longer than anticipated, but I can see some light at the end of the tunnel.  I just hope that it is not the oncoming train known as “RIGGING”.
 

 
Be well
 
Dan
 
 
 

Log 24 -  Head Structures
 
Hi again.  It has been a bit longer since the last segment than I hoped, in part because our daughter gave birth to her second child and our eighth grandchild.  Everyone is doing fine and it reminds me that there is more to life than ship modeling.  Sacrilege, I know, but it’s hard to deny.
 
Time to concentrate on the head structures, the rails, supports, and small deck that fit around and under the base of the bowsprit.  Here is how they look in the plans.
 

 
I started with the bare stem piece cut off at the approximate height to mount the figurehead.  It had been left somewhat rough to this point before the rails were fitted.   
 

 
The stem was trimmed flat and the inside curve was sanded smooth.  A strip of hardwood was cut and fitted to the inside curve which extended up to the height of the lion figurehead’s mane.  It will support the forward ends of the two upper rails. The edge of the mane was penciled in on the wood for reference so the rails don’t interfere with the figurehead.
 

 
The top rail was roughly shaped to fit from the cathead to the stem in a pleasing curve that matches the plans, but it was not finished at this point.  In the photo you can see a piece of translucent tape which has been laid on the stem so the ‘S’ shape of the lower rail could be drawn on it.  I call this rail the ‘hawse rail’ because the hawse piece mounts just above it and I don’t know its proper name.
 

 
The hawse rail is made up of two pieces.  Here a paper pattern is being developed to establish the mating faces of the lower section against the wale and the stem.
 

 
The lower piece was cut using that paper pattern while the upper section was cut using the tape pattern with the shape drawn on.  They were both left a bit oversize to allow for a good deal of shaping and fitting.  Here they are roughly set in place.
 

 
The lower piece was ground and sanded till the mating face was flush with the wale and the piece sat at the proper upwards angle to meet the descending angle of the upper piece.  The outer face of the lower piece was left large till the upper piece was fitted.
 

 
Here you can see the hawse rail fitted, sanded and given its first coat of finish.  The upper rail has now been shaped to fit.  Simple carved decorations give the upper rail some interest.  A better photo is coming later.
 

 
With these two rails in place the middle rail was fitted, shaped and installed.  The figurehead was repeatedly put on to test the fit of the rails then removed for safety and to provide clearance to work on the rails.
 

 
The bottom rail was built up in two pieces like the hawse rail.  It is just a lot shorter as it extends only to the foot of the lion.  Here are all the rails as fitted and finished.
 

 
Now the hawse piece was cut and fitted to the top of the hawse rail.  Two holes were drilled for the anchor cables to be installed into when the time comes.  Here they are with the figurehead in place.  The carvings on the top rail can be seen clearly in the photo.  They were done with a sharp-cornered bit in the Dremel, then smoothed and refined with a curved file called a riffler.  The varying shine on some of the parts will be toned down and corrected in the final finishing coats.
 

 
As I was roughly cutting out the rail pieces, I made a second set for the port side.  All of the techniques were the same.  Here are the port side rails, except the bottom one.  I was fortunate that prior planning made it relatively easy to get the two sides symmetrical.
 

 
And here is a detail photo of the rails and the carvings on the port side.
 

 
Three support brackets were fashioned and installed between the upper rails.  Only the middle one had to have a bent shape to lie against the rails and sit next to the hawse pieces.  Here they are installed but not finished.
 

 
And here they are finished in two views.  The end points of all the rails and the intersections with the support brackets were all subsequently reinforced with metal pins and glue.
 
 

 

 
Next the deck and grating under the bowsprit were built.  A paper pattern was used to define the total size and shape of the piece so it sat level and firmly on the rail support brackets.  It was built up from two triangular pieces of grating, with solid pieces fit around it and against the curve of the hull.
 

 
You can see in this view how a hole was left along the centerline for the gammoning which will hold down the bowsprit.
 

 
Two seats of ease were fashioned from solid birch pieces with cherry tops.  The bowsprit has been temporarily installed to check the fit.  A wooden ring, like a mast coat, will dress up the entry into the hull when it is permanently installed.  You can see a small mark on top to locate the central gammon cleat later.
 

 
So here is the completed head structure.  There will be a wire railing installed for the safety of the crew while using the heads, but that will wait until the gammoning is installed so it does not interfere with my stubby fingers as I work.
 

 
Next on the schedule – the captain’s cabin, the open gunport lids, and the channels and deadeyes.
 
Hopefully it will not be so long till the next report.
 
Be well
 
Dan
 
 
 

HI all - 
 
After finishing up some other projects and some chores on the "honey-do" list, I am back building the QAR.   Here is my progress.
 
I realized that I had not planned or installed any scuppers from the gun deck to the outside of the hull.  Using a set of outside calipers I located and drilled five on each side of the hull.  I lined them with lead from a wine bottle wrapped around a toothpick, glued, and slid into place.  Once the glue was dry the excess was trimmed with a sharp blade.  They fit well when they were located under the gunports, though this meant that the upper ends in the waterways at the edges of the deck were all hidden by the guns.  Here are two on the port side of the hull.
 
1
 
Next I turned to the guns.  First were the stowed guns on the starboard side.  I played around with the test gun station that I made up a while ago to see how it might have been done.  I figured that the crew would have used the breaching rope and the train tackles which were already available.  I found that the breaching rope could be tightened up through the rings in the bulwark, which would have secured the gun pretty well.  Then the train tackles could run from the eyebolts on the carriage to the hooks in the bulwark.  Once they were tightened the remaining length of running line could be frapped (overwrapped) between the blocks.  I found that two layers perfectly used up the free line.  This seems a workable solution, but there certainly can be others.
 
Note that I have installed a lead vent cover secured with light line, which would have been used to keep water from entering and rusting the vent hole.  
 
2
 
Here is the line of four stowed guns in the waist. The guns are secured with a metal pin through the rear axle and into the deck, which is hidden between the truck and the carriage. There are two others, one forward under the foredeck and one aft under the quarterdeck, which can only be seen at a low angle.  Those that cannot be seen were not installed.  
 
3
 
On the port side the guns are run out, so all of them can be seen to some extent.  The three aftmost and the one in the bow were simplified.  The trucks were replaced with cleats for added glue surface and security, while the capsquares and rigging were not installed.  These were pinned in place as well.
 
4
 
The visible guns were glued to the deck and a metal pin was drilled at an angle through the rear axle and into the deck.  The breaching rope was rigged through the rings in the bulwark and secured to itself with two round seizings.  The rope was softened with water and shaped to 'droop' onto the deck.  Once it was approximately positioned it was painted with dilute pH neutral white glue and teased into final position as the glue dried.  This also secured it to the deck.  The train tackle was rigged from the carriage eyebolts to the bulwark hooks with the running line coiled on deck.  I did not flemish the coil since I do not think that a pirate ship would be that 'shipshape' or fastidious.
 
5
 
As long as I was rigging the guns, I experimented with loading procedures.  I was surprised to see that when the gun was fully run in for loading the back of the carriage covered up the deck ring behind it.  I double checked the length of French six-pounder cannon and the breadth of the deck and they were correct, so it is likely that this was what happened.  The only way I could make the system work was to hook the run-in tackle to the ring on the opposite side of the deck.   
 
6
 
With the copper clips standing in for the gun crew this seems to be a workable solution.  But again, this is speculation and may not be correct.
 
7
 
The rest of the port broadside was installed and rigged.
 
8
 
There are no pumps in Budriot's plans, but they do appear in a photograph of Berti's model of Le Mercure.  His are round, which I did not like, so I made mine hexagonal.  This was done in a straightforward way.  A length of half inch maple dowel was cut and the end marked with a six pointed star.  The lines were extended down the dowel then the wood was carved away between the lines.  The pump bodies were cut to length and the sides adjusted by hand sanding.
 
9
 
The well at the top was drilled, milled and darkened.  Blackened brass reinforcing rings were installed, as was a blackened brass outlet near the base of the pump.  The yoke for the handle was fashioned, installed and secured with three metal pins.  The handle was shaped and given a pivoting lifting bar at the business end that dropped into the well.  The handle was mounted on a metal axle pin through the yoke and the finished pump was given a coat of clear finish.
 
10
 
The completed pumps were installed adjacent to the main mast location.  Their bases had to be angled slightly to match the round-up of the deck, then secured with metal pins into the deck.  The handles are angled outward where they can be accessed easily by the crew without getting in the way of the rigging to come (at least I hope that there will be no problems).  
 
11
 
Using Pirate Pete for comparison, I am happy with the size, scale and look of the pumps.
 
12
 
More soon.  Be well.
 
Dan
 
 
 
 

Hi Mark - 
 
Just catching up with your build.  Looking mighty nice.  Let me add my compliments to all the others.  V2 is coming along beautifully.  I took your last photo, enlarged it and flipped it over to really appreciate it.  The Hahn method may build the hull upside down, but I can see it better right side up.  Top quality work, my friend.
 
Will you be carving the details with your light saber?
 
Dan

Before I start my build log some information about the real La Créole and
the data from which my model will build.
 
The La Créole was a 24-gun corvette of the French Navy. The corvette
carried 4 x 18 pdr guns and 20 x 30 pdr carronades.
Her plans were drawn by P. M. Leroux in 1827. She was launched in Cherbourg in
May 1829. The ship took part in the French invasion of Mexico in 1838, and most
notably in the Bombardment of San Juan de Ulloa before French troops disembarked and captured the city of Veracruz.

There is a fine shipyard model on display at the Musée national de la Marine in Paris which is shown by many photos in the book of Jean Boudriot (in French). 
 
I use the following sources for building my model of the corvette:
Jean Boudriot - Historique de la corvette 1650-1850: La
Créole, 1827
 
 
Now the images of beginning:
 
 
 
To be continued...
 
Best regards
Johann
 
 
 
 
 
 

Thanks all for your kind coments, small update, finished the first planking of the hull, cut out all the gun ports inserted the linings and filled in all the gashy bits on the ports side, the quarter galley doors have had the linings inserted and left slightly proud so as to let the second planking butt up and then be sanded flush, all prep work finished on this side, started work on the starboard side but still lots of work to do ,cheers
  William
 

HI all - 
 
After finishing up some other projects and some chores on the "honey-do" list, I am back building the QAR.   Here is my progress.
 
I realized that I had not planned or installed any scuppers from the gun deck to the outside of the hull.  Using a set of outside calipers I located and drilled five on each side of the hull.  I lined them with lead from a wine bottle wrapped around a toothpick, glued, and slid into place.  Once the glue was dry the excess was trimmed with a sharp blade.  They fit well when they were located under the gunports, though this meant that the upper ends in the waterways at the edges of the deck were all hidden by the guns.  Here are two on the port side of the hull.
 
1
 
Next I turned to the guns.  First were the stowed guns on the starboard side.  I played around with the test gun station that I made up a while ago to see how it might have been done.  I figured that the crew would have used the breaching rope and the train tackles which were already available.  I found that the breaching rope could be tightened up through the rings in the bulwark, which would have secured the gun pretty well.  Then the train tackles could run from the eyebolts on the carriage to the hooks in the bulwark.  Once they were tightened the remaining length of running line could be frapped (overwrapped) between the blocks.  I found that two layers perfectly used up the free line.  This seems a workable solution, but there certainly can be others.
 
Note that I have installed a lead vent cover secured with light line, which would have been used to keep water from entering and rusting the vent hole.  
 
2
 
Here is the line of four stowed guns in the waist. The guns are secured with a metal pin through the rear axle and into the deck, which is hidden between the truck and the carriage. There are two others, one forward under the foredeck and one aft under the quarterdeck, which can only be seen at a low angle.  Those that cannot be seen were not installed.  
 
3
 
On the port side the guns are run out, so all of them can be seen to some extent.  The three aftmost and the one in the bow were simplified.  The trucks were replaced with cleats for added glue surface and security, while the capsquares and rigging were not installed.  These were pinned in place as well.
 
4
 
The visible guns were glued to the deck and a metal pin was drilled at an angle through the rear axle and into the deck.  The breaching rope was rigged through the rings in the bulwark and secured to itself with two round seizings.  The rope was softened with water and shaped to 'droop' onto the deck.  Once it was approximately positioned it was painted with dilute pH neutral white glue and teased into final position as the glue dried.  This also secured it to the deck.  The train tackle was rigged from the carriage eyebolts to the bulwark hooks with the running line coiled on deck.  I did not flemish the coil since I do not think that a pirate ship would be that 'shipshape' or fastidious.
 
5
 
As long as I was rigging the guns, I experimented with loading procedures.  I was surprised to see that when the gun was fully run in for loading the back of the carriage covered up the deck ring behind it.  I double checked the length of French six-pounder cannon and the breadth of the deck and they were correct, so it is likely that this was what happened.  The only way I could make the system work was to hook the run-in tackle to the ring on the opposite side of the deck.   
 
6
 
With the copper clips standing in for the gun crew this seems to be a workable solution.  But again, this is speculation and may not be correct.
 
7
 
The rest of the port broadside was installed and rigged.
 
8
 
There are no pumps in Budriot's plans, but they do appear in a photograph of Berti's model of Le Mercure.  His are round, which I did not like, so I made mine hexagonal.  This was done in a straightforward way.  A length of half inch maple dowel was cut and the end marked with a six pointed star.  The lines were extended down the dowel then the wood was carved away between the lines.  The pump bodies were cut to length and the sides adjusted by hand sanding.
 
9
 
The well at the top was drilled, milled and darkened.  Blackened brass reinforcing rings were installed, as was a blackened brass outlet near the base of the pump.  The yoke for the handle was fashioned, installed and secured with three metal pins.  The handle was shaped and given a pivoting lifting bar at the business end that dropped into the well.  The handle was mounted on a metal axle pin through the yoke and the finished pump was given a coat of clear finish.
 
10
 
The completed pumps were installed adjacent to the main mast location.  Their bases had to be angled slightly to match the round-up of the deck, then secured with metal pins into the deck.  The handles are angled outward where they can be accessed easily by the crew without getting in the way of the rigging to come (at least I hope that there will be no problems).  
 
11
 
Using Pirate Pete for comparison, I am happy with the size, scale and look of the pumps.
 
12
 
More soon.  Be well.
 
Dan
 
 
 
 

HI all - 
 
After finishing up some other projects and some chores on the "honey-do" list, I am back building the QAR.   Here is my progress.
 
I realized that I had not planned or installed any scuppers from the gun deck to the outside of the hull.  Using a set of outside calipers I located and drilled five on each side of the hull.  I lined them with lead from a wine bottle wrapped around a toothpick, glued, and slid into place.  Once the glue was dry the excess was trimmed with a sharp blade.  They fit well when they were located under the gunports, though this meant that the upper ends in the waterways at the edges of the deck were all hidden by the guns.  Here are two on the port side of the hull.
 
1
 
Next I turned to the guns.  First were the stowed guns on the starboard side.  I played around with the test gun station that I made up a while ago to see how it might have been done.  I figured that the crew would have used the breaching rope and the train tackles which were already available.  I found that the breaching rope could be tightened up through the rings in the bulwark, which would have secured the gun pretty well.  Then the train tackles could run from the eyebolts on the carriage to the hooks in the bulwark.  Once they were tightened the remaining length of running line could be frapped (overwrapped) between the blocks.  I found that two layers perfectly used up the free line.  This seems a workable solution, but there certainly can be others.
 
Note that I have installed a lead vent cover secured with light line, which would have been used to keep water from entering and rusting the vent hole.  
 
2
 
Here is the line of four stowed guns in the waist. The guns are secured with a metal pin through the rear axle and into the deck, which is hidden between the truck and the carriage. There are two others, one forward under the foredeck and one aft under the quarterdeck, which can only be seen at a low angle.  Those that cannot be seen were not installed.  
 
3
 
On the port side the guns are run out, so all of them can be seen to some extent.  The three aftmost and the one in the bow were simplified.  The trucks were replaced with cleats for added glue surface and security, while the capsquares and rigging were not installed.  These were pinned in place as well.
 
4
 
The visible guns were glued to the deck and a metal pin was drilled at an angle through the rear axle and into the deck.  The breaching rope was rigged through the rings in the bulwark and secured to itself with two round seizings.  The rope was softened with water and shaped to 'droop' onto the deck.  Once it was approximately positioned it was painted with dilute pH neutral white glue and teased into final position as the glue dried.  This also secured it to the deck.  The train tackle was rigged from the carriage eyebolts to the bulwark hooks with the running line coiled on deck.  I did not flemish the coil since I do not think that a pirate ship would be that 'shipshape' or fastidious.
 
5
 
As long as I was rigging the guns, I experimented with loading procedures.  I was surprised to see that when the gun was fully run in for loading the back of the carriage covered up the deck ring behind it.  I double checked the length of French six-pounder cannon and the breadth of the deck and they were correct, so it is likely that this was what happened.  The only way I could make the system work was to hook the run-in tackle to the ring on the opposite side of the deck.   
 
6
 
With the copper clips standing in for the gun crew this seems to be a workable solution.  But again, this is speculation and may not be correct.
 
7
 
The rest of the port broadside was installed and rigged.
 
8
 
There are no pumps in Budriot's plans, but they do appear in a photograph of Berti's model of Le Mercure.  His are round, which I did not like, so I made mine hexagonal.  This was done in a straightforward way.  A length of half inch maple dowel was cut and the end marked with a six pointed star.  The lines were extended down the dowel then the wood was carved away between the lines.  The pump bodies were cut to length and the sides adjusted by hand sanding.
 
9
 
The well at the top was drilled, milled and darkened.  Blackened brass reinforcing rings were installed, as was a blackened brass outlet near the base of the pump.  The yoke for the handle was fashioned, installed and secured with three metal pins.  The handle was shaped and given a pivoting lifting bar at the business end that dropped into the well.  The handle was mounted on a metal axle pin through the yoke and the finished pump was given a coat of clear finish.
 
10
 
The completed pumps were installed adjacent to the main mast location.  Their bases had to be angled slightly to match the round-up of the deck, then secured with metal pins into the deck.  The handles are angled outward where they can be accessed easily by the crew without getting in the way of the rigging to come (at least I hope that there will be no problems).  
 
11
 
Using Pirate Pete for comparison, I am happy with the size, scale and look of the pumps.
 
12
 
More soon.  Be well.
 
Dan
 
 
 
 

HI all - 
 
After finishing up some other projects and some chores on the "honey-do" list, I am back building the QAR.   Here is my progress.
 
I realized that I had not planned or installed any scuppers from the gun deck to the outside of the hull.  Using a set of outside calipers I located and drilled five on each side of the hull.  I lined them with lead from a wine bottle wrapped around a toothpick, glued, and slid into place.  Once the glue was dry the excess was trimmed with a sharp blade.  They fit well when they were located under the gunports, though this meant that the upper ends in the waterways at the edges of the deck were all hidden by the guns.  Here are two on the port side of the hull.
 
1
 
Next I turned to the guns.  First were the stowed guns on the starboard side.  I played around with the test gun station that I made up a while ago to see how it might have been done.  I figured that the crew would have used the breaching rope and the train tackles which were already available.  I found that the breaching rope could be tightened up through the rings in the bulwark, which would have secured the gun pretty well.  Then the train tackles could run from the eyebolts on the carriage to the hooks in the bulwark.  Once they were tightened the remaining length of running line could be frapped (overwrapped) between the blocks.  I found that two layers perfectly used up the free line.  This seems a workable solution, but there certainly can be others.
 
Note that I have installed a lead vent cover secured with light line, which would have been used to keep water from entering and rusting the vent hole.  
 
2
 
Here is the line of four stowed guns in the waist. The guns are secured with a metal pin through the rear axle and into the deck, which is hidden between the truck and the carriage. There are two others, one forward under the foredeck and one aft under the quarterdeck, which can only be seen at a low angle.  Those that cannot be seen were not installed.  
 
3
 
On the port side the guns are run out, so all of them can be seen to some extent.  The three aftmost and the one in the bow were simplified.  The trucks were replaced with cleats for added glue surface and security, while the capsquares and rigging were not installed.  These were pinned in place as well.
 
4
 
The visible guns were glued to the deck and a metal pin was drilled at an angle through the rear axle and into the deck.  The breaching rope was rigged through the rings in the bulwark and secured to itself with two round seizings.  The rope was softened with water and shaped to 'droop' onto the deck.  Once it was approximately positioned it was painted with dilute pH neutral white glue and teased into final position as the glue dried.  This also secured it to the deck.  The train tackle was rigged from the carriage eyebolts to the bulwark hooks with the running line coiled on deck.  I did not flemish the coil since I do not think that a pirate ship would be that 'shipshape' or fastidious.
 
5
 
As long as I was rigging the guns, I experimented with loading procedures.  I was surprised to see that when the gun was fully run in for loading the back of the carriage covered up the deck ring behind it.  I double checked the length of French six-pounder cannon and the breadth of the deck and they were correct, so it is likely that this was what happened.  The only way I could make the system work was to hook the run-in tackle to the ring on the opposite side of the deck.   
 
6
 
With the copper clips standing in for the gun crew this seems to be a workable solution.  But again, this is speculation and may not be correct.
 
7
 
The rest of the port broadside was installed and rigged.
 
8
 
There are no pumps in Budriot's plans, but they do appear in a photograph of Berti's model of Le Mercure.  His are round, which I did not like, so I made mine hexagonal.  This was done in a straightforward way.  A length of half inch maple dowel was cut and the end marked with a six pointed star.  The lines were extended down the dowel then the wood was carved away between the lines.  The pump bodies were cut to length and the sides adjusted by hand sanding.
 
9
 
The well at the top was drilled, milled and darkened.  Blackened brass reinforcing rings were installed, as was a blackened brass outlet near the base of the pump.  The yoke for the handle was fashioned, installed and secured with three metal pins.  The handle was shaped and given a pivoting lifting bar at the business end that dropped into the well.  The handle was mounted on a metal axle pin through the yoke and the finished pump was given a coat of clear finish.
 
10
 
The completed pumps were installed adjacent to the main mast location.  Their bases had to be angled slightly to match the round-up of the deck, then secured with metal pins into the deck.  The handles are angled outward where they can be accessed easily by the crew without getting in the way of the rigging to come (at least I hope that there will be no problems).  
 
11
 
Using Pirate Pete for comparison, I am happy with the size, scale and look of the pumps.
 
12
 
More soon.  Be well.
 
Dan
 
 
 
 

HI all - 
 
After finishing up some other projects and some chores on the "honey-do" list, I am back building the QAR.   Here is my progress.
 
I realized that I had not planned or installed any scuppers from the gun deck to the outside of the hull.  Using a set of outside calipers I located and drilled five on each side of the hull.  I lined them with lead from a wine bottle wrapped around a toothpick, glued, and slid into place.  Once the glue was dry the excess was trimmed with a sharp blade.  They fit well when they were located under the gunports, though this meant that the upper ends in the waterways at the edges of the deck were all hidden by the guns.  Here are two on the port side of the hull.
 
1
 
Next I turned to the guns.  First were the stowed guns on the starboard side.  I played around with the test gun station that I made up a while ago to see how it might have been done.  I figured that the crew would have used the breaching rope and the train tackles which were already available.  I found that the breaching rope could be tightened up through the rings in the bulwark, which would have secured the gun pretty well.  Then the train tackles could run from the eyebolts on the carriage to the hooks in the bulwark.  Once they were tightened the remaining length of running line could be frapped (overwrapped) between the blocks.  I found that two layers perfectly used up the free line.  This seems a workable solution, but there certainly can be others.
 
Note that I have installed a lead vent cover secured with light line, which would have been used to keep water from entering and rusting the vent hole.  
 
2
 
Here is the line of four stowed guns in the waist. The guns are secured with a metal pin through the rear axle and into the deck, which is hidden between the truck and the carriage. There are two others, one forward under the foredeck and one aft under the quarterdeck, which can only be seen at a low angle.  Those that cannot be seen were not installed.  
 
3
 
On the port side the guns are run out, so all of them can be seen to some extent.  The three aftmost and the one in the bow were simplified.  The trucks were replaced with cleats for added glue surface and security, while the capsquares and rigging were not installed.  These were pinned in place as well.
 
4
 
The visible guns were glued to the deck and a metal pin was drilled at an angle through the rear axle and into the deck.  The breaching rope was rigged through the rings in the bulwark and secured to itself with two round seizings.  The rope was softened with water and shaped to 'droop' onto the deck.  Once it was approximately positioned it was painted with dilute pH neutral white glue and teased into final position as the glue dried.  This also secured it to the deck.  The train tackle was rigged from the carriage eyebolts to the bulwark hooks with the running line coiled on deck.  I did not flemish the coil since I do not think that a pirate ship would be that 'shipshape' or fastidious.
 
5
 
As long as I was rigging the guns, I experimented with loading procedures.  I was surprised to see that when the gun was fully run in for loading the back of the carriage covered up the deck ring behind it.  I double checked the length of French six-pounder cannon and the breadth of the deck and they were correct, so it is likely that this was what happened.  The only way I could make the system work was to hook the run-in tackle to the ring on the opposite side of the deck.   
 
6
 
With the copper clips standing in for the gun crew this seems to be a workable solution.  But again, this is speculation and may not be correct.
 
7
 
The rest of the port broadside was installed and rigged.
 
8
 
There are no pumps in Budriot's plans, but they do appear in a photograph of Berti's model of Le Mercure.  His are round, which I did not like, so I made mine hexagonal.  This was done in a straightforward way.  A length of half inch maple dowel was cut and the end marked with a six pointed star.  The lines were extended down the dowel then the wood was carved away between the lines.  The pump bodies were cut to length and the sides adjusted by hand sanding.
 
9
 
The well at the top was drilled, milled and darkened.  Blackened brass reinforcing rings were installed, as was a blackened brass outlet near the base of the pump.  The yoke for the handle was fashioned, installed and secured with three metal pins.  The handle was shaped and given a pivoting lifting bar at the business end that dropped into the well.  The handle was mounted on a metal axle pin through the yoke and the finished pump was given a coat of clear finish.
 
10
 
The completed pumps were installed adjacent to the main mast location.  Their bases had to be angled slightly to match the round-up of the deck, then secured with metal pins into the deck.  The handles are angled outward where they can be accessed easily by the crew without getting in the way of the rigging to come (at least I hope that there will be no problems).  
 
11
 
Using Pirate Pete for comparison, I am happy with the size, scale and look of the pumps.
 
12
 
More soon.  Be well.
 
Dan
 
 
 
 

Hi again to everyone following this log.  Thanks for all the support, comments and likes.
 
Here is the work that has happened in the last week.  I usually put two or more weeks of work into a log entry, but I am going on vacation with the family all of next week, and didn’t want to postpone it.
 
At the end of the last entry I noticed some symmetry problems at the bow.  The thin molding was low on the port side, and the starboard bulwark was too high.
 

 
Here I have corrected the problems.  I think that the fix is satisfactory, but I will continue to examine the model to see if there are any others that need work.
 

 
Next I started on the planking for the gun deck where it will be visible in the waist.  The insides of the bulwarks were planked just like the outer surface of the hull, with individual planks of birch veneer glued on with contact cement.  Planks were trimmed to cover the gunport frames and linings.   Treenail fasteners were done in the usual manner.
 

 
The planking of the deck in the waist is a little different.  Budriot’s plans indicate that the central section of the deck was made up of thicker planks than the rest of the deck.  The outermost of these planks were let into the deck beams beneath and are known as binding strakes.  They helped lock the deck to the deck beams and strengthened the entire core of the ship.
 

 
On the model I did not lock them into the structure so they are not binding strakes, but they are made of thicker stuff than the planks.  Examination of photos of contemporary French models in the Musee de la Marine (Budriot, Historic Ship Models)  indicates a pretty consistent look to this section of the deck.  The binding strakes and the gratings are dark, even painted black, while the central planking is lighter and matches the color of the rest of the deck planking.
 

 
I started with the gratings which I made earlier.  These were made on the English pattern, so I crowned them and set them down into the raised strakes so they are nearly flush.  These are the first of the early pieces to be permanently attached to the model. The binding strakes are cherry, like the coamings for the gratings, while the central planking is holly.   This is a veneer and was glued to crowned sections of basswood to match the curve of the gratings. 
 

 
Once this section was in place and pinned to the deck substrate, I drew the locations for the deck beams, starting with those at each end of the gratings and filling in from there.  They laid out with a pretty consistent pattern of 4 scale feet center to center.  
 
Now I used the holly veneer to plank outward from the center section.  I was going to saw up a bunch of individual planks and do the deck as I had done the outer surface of the hull.  But then I decided to try using one large sheet of veneer with the planks marked and scribed on.  After a satisfactory test piece was made I decided to go for it.
 
A paper pattern was made that fit the area from the binding strake to the base of the bulwark.  This was laid out onto a piece of holly veneer, but not cut.  Using a long metal ruler as a straightedge a series of 6mm wide planks were laid out on the wood.  With the veneer clamped under the ruler a pencil line was drawn with a 0.5mm mechanical pencil so all the lines would be a consistent width.  Without unclamping I scribed the line into the wood with two light passes using the back of a #10 blade.  The markings were made permanent with two coats of spray satin finish.
 

 
With the planks lined out I cut and trimmed the veneer piece until it fit snugly into the space from binding strake to bulwark.  I test fit the piece in place and lightly marked the beam locations onto the veneer.  Using the straightedge and a small square the butt joints were marked out, penciled and scribed as before.  I used a 3-step pattern with a 1-3-2-4 stagger.  I don’t know if this is historically correct for French ships of the period, but it looks right.
 
After a final sanding to smooth the deck substrate several coats of thinned contact cement were painted onto the deck and the veneer piece.  When dry the piece was laid in place and burnished down to the substrate.  This is a permanent bond, like a kitchen counter, but the treenails that will be installed doubly guarantee adhesion.
 
At the base of the bulwarks a margin plank, finish plank, and chamfered  waterway were installed.  They are cherry and contrast nicely with the birch of the bulwark and the holly of the deck.
 

 
Now all the fastening holes could be drilled.  Careening the model in the cradles gave me access without straining.
 

 
As with the hull planks, I used square treenail sticks pressed into round holes and clipped short, leaving just nubs of wood above the surface of the planks. 
 

 
When all the holes were filled they were painted with dilute white glue.  When the glue dried the nubs were cut off flush with a small sharp chisel.  The fastenings are birch which subtly contrasts with the holly without becoming overbearing.  The fastenings in the cherry binding strakes were made of walnut, also for a bit of contrast.
 

 
With the waist planked it will soon be time to work on the upper decks.  Here I have laid up the substrates for the three sections.  They are made up of two layers of 1/16” basswood glued over a curved form.   The laminated pieces held their shapes quite well after the glue dried.   Paper patterns were used to get the right outlines.  The pieces were cut on the band saw and refined with a bench disc sander.
 

 
With the deck pieces temporarily installed I fitted out the waist with cannon, the ship’s boat, and my figures. 
 


 
I don’t see anything when I examine the model or in the photos that looks obviously wrong, but my eyes are getting old and I am a bit biased.  If anyone sees anything, please tell me now while I can still get at it to change it.
 
Thanks
 
Dan

HI all - 
 
After finishing up some other projects and some chores on the "honey-do" list, I am back building the QAR.   Here is my progress.
 
I realized that I had not planned or installed any scuppers from the gun deck to the outside of the hull.  Using a set of outside calipers I located and drilled five on each side of the hull.  I lined them with lead from a wine bottle wrapped around a toothpick, glued, and slid into place.  Once the glue was dry the excess was trimmed with a sharp blade.  They fit well when they were located under the gunports, though this meant that the upper ends in the waterways at the edges of the deck were all hidden by the guns.  Here are two on the port side of the hull.
 
1
 
Next I turned to the guns.  First were the stowed guns on the starboard side.  I played around with the test gun station that I made up a while ago to see how it might have been done.  I figured that the crew would have used the breaching rope and the train tackles which were already available.  I found that the breaching rope could be tightened up through the rings in the bulwark, which would have secured the gun pretty well.  Then the train tackles could run from the eyebolts on the carriage to the hooks in the bulwark.  Once they were tightened the remaining length of running line could be frapped (overwrapped) between the blocks.  I found that two layers perfectly used up the free line.  This seems a workable solution, but there certainly can be others.
 
Note that I have installed a lead vent cover secured with light line, which would have been used to keep water from entering and rusting the vent hole.  
 
2
 
Here is the line of four stowed guns in the waist. The guns are secured with a metal pin through the rear axle and into the deck, which is hidden between the truck and the carriage. There are two others, one forward under the foredeck and one aft under the quarterdeck, which can only be seen at a low angle.  Those that cannot be seen were not installed.  
 
3
 
On the port side the guns are run out, so all of them can be seen to some extent.  The three aftmost and the one in the bow were simplified.  The trucks were replaced with cleats for added glue surface and security, while the capsquares and rigging were not installed.  These were pinned in place as well.
 
4
 
The visible guns were glued to the deck and a metal pin was drilled at an angle through the rear axle and into the deck.  The breaching rope was rigged through the rings in the bulwark and secured to itself with two round seizings.  The rope was softened with water and shaped to 'droop' onto the deck.  Once it was approximately positioned it was painted with dilute pH neutral white glue and teased into final position as the glue dried.  This also secured it to the deck.  The train tackle was rigged from the carriage eyebolts to the bulwark hooks with the running line coiled on deck.  I did not flemish the coil since I do not think that a pirate ship would be that 'shipshape' or fastidious.
 
5
 
As long as I was rigging the guns, I experimented with loading procedures.  I was surprised to see that when the gun was fully run in for loading the back of the carriage covered up the deck ring behind it.  I double checked the length of French six-pounder cannon and the breadth of the deck and they were correct, so it is likely that this was what happened.  The only way I could make the system work was to hook the run-in tackle to the ring on the opposite side of the deck.   
 
6
 
With the copper clips standing in for the gun crew this seems to be a workable solution.  But again, this is speculation and may not be correct.
 
7
 
The rest of the port broadside was installed and rigged.
 
8
 
There are no pumps in Budriot's plans, but they do appear in a photograph of Berti's model of Le Mercure.  His are round, which I did not like, so I made mine hexagonal.  This was done in a straightforward way.  A length of half inch maple dowel was cut and the end marked with a six pointed star.  The lines were extended down the dowel then the wood was carved away between the lines.  The pump bodies were cut to length and the sides adjusted by hand sanding.
 
9
 
The well at the top was drilled, milled and darkened.  Blackened brass reinforcing rings were installed, as was a blackened brass outlet near the base of the pump.  The yoke for the handle was fashioned, installed and secured with three metal pins.  The handle was shaped and given a pivoting lifting bar at the business end that dropped into the well.  The handle was mounted on a metal axle pin through the yoke and the finished pump was given a coat of clear finish.
 
10
 
The completed pumps were installed adjacent to the main mast location.  Their bases had to be angled slightly to match the round-up of the deck, then secured with metal pins into the deck.  The handles are angled outward where they can be accessed easily by the crew without getting in the way of the rigging to come (at least I hope that there will be no problems).  
 
11
 
Using Pirate Pete for comparison, I am happy with the size, scale and look of the pumps.
 
12
 
More soon.  Be well.
 
Dan
 
 
 
 

HI all - 
 
After finishing up some other projects and some chores on the "honey-do" list, I am back building the QAR.   Here is my progress.
 
I realized that I had not planned or installed any scuppers from the gun deck to the outside of the hull.  Using a set of outside calipers I located and drilled five on each side of the hull.  I lined them with lead from a wine bottle wrapped around a toothpick, glued, and slid into place.  Once the glue was dry the excess was trimmed with a sharp blade.  They fit well when they were located under the gunports, though this meant that the upper ends in the waterways at the edges of the deck were all hidden by the guns.  Here are two on the port side of the hull.
 
1
 
Next I turned to the guns.  First were the stowed guns on the starboard side.  I played around with the test gun station that I made up a while ago to see how it might have been done.  I figured that the crew would have used the breaching rope and the train tackles which were already available.  I found that the breaching rope could be tightened up through the rings in the bulwark, which would have secured the gun pretty well.  Then the train tackles could run from the eyebolts on the carriage to the hooks in the bulwark.  Once they were tightened the remaining length of running line could be frapped (overwrapped) between the blocks.  I found that two layers perfectly used up the free line.  This seems a workable solution, but there certainly can be others.
 
Note that I have installed a lead vent cover secured with light line, which would have been used to keep water from entering and rusting the vent hole.  
 
2
 
Here is the line of four stowed guns in the waist. The guns are secured with a metal pin through the rear axle and into the deck, which is hidden between the truck and the carriage. There are two others, one forward under the foredeck and one aft under the quarterdeck, which can only be seen at a low angle.  Those that cannot be seen were not installed.  
 
3
 
On the port side the guns are run out, so all of them can be seen to some extent.  The three aftmost and the one in the bow were simplified.  The trucks were replaced with cleats for added glue surface and security, while the capsquares and rigging were not installed.  These were pinned in place as well.
 
4
 
The visible guns were glued to the deck and a metal pin was drilled at an angle through the rear axle and into the deck.  The breaching rope was rigged through the rings in the bulwark and secured to itself with two round seizings.  The rope was softened with water and shaped to 'droop' onto the deck.  Once it was approximately positioned it was painted with dilute pH neutral white glue and teased into final position as the glue dried.  This also secured it to the deck.  The train tackle was rigged from the carriage eyebolts to the bulwark hooks with the running line coiled on deck.  I did not flemish the coil since I do not think that a pirate ship would be that 'shipshape' or fastidious.
 
5
 
As long as I was rigging the guns, I experimented with loading procedures.  I was surprised to see that when the gun was fully run in for loading the back of the carriage covered up the deck ring behind it.  I double checked the length of French six-pounder cannon and the breadth of the deck and they were correct, so it is likely that this was what happened.  The only way I could make the system work was to hook the run-in tackle to the ring on the opposite side of the deck.   
 
6
 
With the copper clips standing in for the gun crew this seems to be a workable solution.  But again, this is speculation and may not be correct.
 
7
 
The rest of the port broadside was installed and rigged.
 
8
 
There are no pumps in Budriot's plans, but they do appear in a photograph of Berti's model of Le Mercure.  His are round, which I did not like, so I made mine hexagonal.  This was done in a straightforward way.  A length of half inch maple dowel was cut and the end marked with a six pointed star.  The lines were extended down the dowel then the wood was carved away between the lines.  The pump bodies were cut to length and the sides adjusted by hand sanding.
 
9
 
The well at the top was drilled, milled and darkened.  Blackened brass reinforcing rings were installed, as was a blackened brass outlet near the base of the pump.  The yoke for the handle was fashioned, installed and secured with three metal pins.  The handle was shaped and given a pivoting lifting bar at the business end that dropped into the well.  The handle was mounted on a metal axle pin through the yoke and the finished pump was given a coat of clear finish.
 
10
 
The completed pumps were installed adjacent to the main mast location.  Their bases had to be angled slightly to match the round-up of the deck, then secured with metal pins into the deck.  The handles are angled outward where they can be accessed easily by the crew without getting in the way of the rigging to come (at least I hope that there will be no problems).  
 
11
 
Using Pirate Pete for comparison, I am happy with the size, scale and look of the pumps.
 
12
 
More soon.  Be well.
 
Dan
 
 
 
 

Hello to all who are following this build -
 
It has been a while since my last posting.  Summertime had a lot to do with it, but I also took some time away to work on a short-term and time critical project.  So here is a little diversion from this build.  It may merit a separate file, but as you will see later on, it is incomplete.
 
I was asked to restore a  presentation model of a modern container ship.  The CMA-CGM Vivaldi was built by Hyundai Samho Heavy Industries Co., Ltd. in their Makpo Shipyard in South Korea.   Launched in December, 2004 she was 334 meters LOA with a breadth of 42.3 m (just under 1100 ft LOA, 140 ft breadth).  Its carrying capacity was not listed on the dimensions plaque on the model, but it is huge.  Here she is in a photo from the company website of CMA-CMG Shipping, which owns and operates her as part of one of the world’s largest fleets of container ships.
 
1
 
The model was likely built in the same shipyard as a gift to thank CMA-CGM for the contract and was presented at the time of launch.  It is built to the small scale of 1:200, but the model is still 5 ½ feet long.  Given that the price for the ship was in the millions of dollars, it is not surprising that a good deal of care went into the construction of this presentation model. 
 
It was probably kept in one of their offices, perhaps in their headquarters in Marseille, for the last decade but then was presented in turn to a financing company in Stamford, Connecticut.  It was during the delivery of the model that things went bad.
 
Here is the crate that it came in.  You can see that although there is no obvious damage to the box itself, one of the bottom cleats is missing. 
 
2
 
I was called in when the box was opened and it was found that one of the glass panels of the case was cracked and there was some damage to the model. My first overall impression was that this was not going to be a hard job.  Some of the containers had been detached from their mountings and were tipped over, but they were still on deck and in a line.  The superstructure was in place and there was no evident damage to the hull.
 
3
 
Closer examination revealed that the devil had been playing in the details.  A large number of small pieces were lying on the blue felt base and some had even become trapped in the channel that the glass case sat in.  Fortunately many of them, including some quite complex assemblies, appeared undamaged like the one in the center of the photo.
 
4
 
 
A repair proposal was discussed, a fee agreed to, and work began with the recovery and conservation of any detached parts.  Once the wrapping of clear plastic was removed the impact point could be seen.  It was clear that there had been one sharp blow which had chipped and cracked the glass panel, but without separating it from the rest of the case. 
 
Unfortunately, this is exactly the kind of impact that cyano glue does not like.  With the help of JerseyCityFrankie the glass cover was removed and all of the loose parts were carefully collected.  The detached container units were numbered from the bow to the stern on sticky notes and set aside.  The grey railing units could not be immediately identified, but they were put into one container for later study.  All of the smaller parts such as the lifeboats, ladders, white railings, and various unknown pieces were put in another.
 
8
9
 
Now the full extent of the damage could be seen and assessed.  Along the edges of the hull most of the railings and stanchions were broken off, leaving unpainted spots showing where they had been attached.  At the stern there was additional damage where the railings and ladders had been crushed and even some pieces of the rigid styrene components had been broken.  When everything that was loose had been removed the deck was almost nude other than two container units at the bow that had somehow managed to remain in place.  This was packed up in bubble wrap and taken back to the studio in Brooklyn, NY.
 
12
 
The superstructure which had initially appeared to be generally sound was found to have suffered the most damage.  In additional to losing both lifeboats, most of the railing on the aft face was gone, as were numerous small parts for the lifeboat cranes.  All of the various radars and antennas on the topmost level were missing.  Most significantly, the starboard bridge wing was broken off almost completely. 
 
13
 
Although the proper locations of many of the pieces could be deduced from what they were, there were a great deal more that could have gone anywhere.  Fortunately the company had a second presentation model of the same ship, the Vivaldi.  A series of photographs were taken of the other model to guide the restoration.
 
Here is the bow, showing the white lookout mast which had been detached on the damaged model.  The ladder and safety cage had been separated and crushed, but now I could see how they had to be repaired.
 
14
 
Those gray railing units turned out to be catwalks that fit between the container units.  They sat on top of U-shaped pieces that supported the containers.  Photoetched ladders gave access to upper catwalks which were bordered by photoetched brass railings.  3-bar railings edged the deck all along the sides of the ship.
 
15a
 
The superstructure had 8 deck levels with a full array of electronic equipment on top.
 
16
 
This area was going to be the most challenging, with radars and antenna that were all made up of very small parts that were quite similar to each other.  The photographs that I was sent were not completely helpful in specifying what went where.  Fortunately, using my Photoshop program I could take the image provided and enlarge it, remove the color, and play with the brightness and contrast until I could see almost all of the details.
 
17
18
 
Now that I had the undamaged model as a guide I could start the actual repairs.  The first thing was to reassemble all of the catwalks.  Some were in pretty good shape, but others had been mauled, with most of the parts separated, some of the plastic parts broken off, and the photoetched brass rails badly bent.  Here is one of the catwalks with all its pieces and a second one after restoration.  There were 21 of these in all, which took up about half of the total restoration time.
 
19
 
Now for the incomplete part -
 
The next several weeks were spent doing the restoration.  I took construction photos as I went, as usual, but had not gotten around to downloading them. [i know you can see the problem coming . . . ]  Soon after I took the last photograph, my daughter and her two boys came over.  One is the newborn, the other 2 years old.  While I was doting on the young one, the other found the camera.  He likes to push buttons.  Enough said. 
 
Let me describe what I did, and I hope you can follow along using photos of the completed repair.
 
All of the least damaged catwalks were put back together.  Since there were small variations in how the bases had broken off of the hull I could locate about two thirds in their original positions, fitting them together like a jigsaw puzzle.  They were numbered and set aside.  One by one the rest were repaired until there were only two left, which were severely bent, with missing parts.  Some replacement parts were fabricated from bent wire, and others from brass shim.  Missing ladders were replaced with similar ones from the spares box.
 
21
 
Starting at the bow and working aft the containers and catwalks were glued to the cleaned up hull.  The containers sit on the corners of the catwalk bases and on a square stanchion between the forward and aft bases located on both edges of the deck.  This gives six attachment points for the double wide containers and four each for the single wide ones.  These also broke off irregularly.  Although each container unit was numbered when it was removed, several ones were out of order, and I had not recorded the orientation of the unit.  Each one was test fit to the proposed location and the irregularities let me confirm the original locations.
 
21a
 
The superstructure was the biggest challenge.  I first relocated the lifeboats and repaired their cranes.  Railings which were bent were carefully bent back and glued.  Some that had been detached were too badly bent to repair.  I had 3-bar railing of the right size in my spares box, but the rails were a bit thinner than those on the model.  I used them to replace the railings that would not be seen easily between the aft face of the superstructure and the container unit behind it.  Then I cannibalized the model railings from that area to replace railings in more obvious locations.
 
22
 
The photos that I miss most are those of the repair of the starboard bridge wing.  Here the impact had broken the brittle styrene that made up the bridge deck and the angled and pierced supports on the fore and aft faces.  The detached pieces had kicked around and were now mostly unusable shards.  I first carefully cut the damaged section away in a straight line across the deck with a miniature keyhole saw.  A piece of similarly thick styrene was cut to fit and glued in and the joint sanded smooth.  Artists acrylic paints were mixed to match the green of the deck  The shape of the aft diagonal support piece was traced from the existing one on the port side and cut out, fitted and finished. It was spray painted gloss white before being installed.  The end cap was similarly fitted.  All joints were cleaned up and touch-up painted.
 
22a
 
Using the photographs of the undamaged model the fittings and fixtures on the upper electronics decks on top of the wheelhouse were located.  Antennas, radars, and lightning rods were all glued in with cyano.  Nothing special here, just a delicate touch and perseverence.
 
23
 
Final small detail parts were installed and all of the spots where paint was chipped or missing were touched up and the model was carefully examined to find bent railings and other defects.  I know that I got almost all of them, but I also know that a few got bye, but I'm not telling where. 
 
A new glass case was ordered and delivered from a local custom glass shop.  So here is the completed model ready for delivery to the customer.  It was driven back to Stamford, CT, with a nervous moment for every pothole and road repair that I couldn't avoid.  It survived completely intact and was installed in the office to gratifying compliments from the customer.
 
24
 
Hope you enjoyed the divertimento.  Getting back to the QAR now.  A new build log post soon.
 
Be well
 
Dan
 
 
 

Hi again, and best wishes for a happy Friday the 13th –
 
Thanks for the compliments, likes, and wishes for my new grandson.  Caleb and his mother are both doing well and send their thanks as well.
 
Several smaller items were completed in this segment.  The first was the forward bulkhead for the captain’s cabin.  There are no plans or drawings of it in either of the plans that I am using, so I designed it to be functional, using some of the same details as on the stern and quarter badges. 
 

 
There is a chair rail molding with wainscoting below.  This was not scribed but laid up from individual planks.  The door is of a typical 17th Century style, with H-L hinges and decorative cross banding.  The windows are flanked by fluted columns which were built up as before.  To each side there will be a ladder to the poop deck, which have not yet been constructed.  The bulkhead is still removable at this stage, and may have to be moved back a little to give me room to install the whipstaff which will go between the cabin and the mizzen mast.
 
I have not decided whether to paint the wainscoting blue and add some decorative details.  What does the group think?
 
The cabin was also dressed up by closing in the aftmost gunport with a decorative shutter.  The central circle was made by stiffening a 1/8” birch dowel with a drop of thin cyano on its cut end.  When dry the center of the dowel was drilled out to a depth of about ¼” and then the circles were parted off on the table saw.
 

 
Next I turned to the first of the rigging fixtures – the staghorns.  Here is a section of my plans for the inner bulwarks, which was made by using PhotoShop to combine the plans from the Advice Prize with details from Le Mercure.  You can see three of the four staghorns that will be mounted on each side.
 

 
Here is an enlargement of the plans for the staghorns.  Note in the side view the extreme angles that have to be used to match the 13 degree tumblehome of the bulwarks.
 

 
I started by carving a length of pear to the shape of the horns of the fitting.  The piece was just under 3 inches long, which gave me extra material for the next model as well.  Here you can see three horns that have been parted off.  They are a little heavy, but were later reduced with a small sanding drum.
 

 
The shelf that supports the horns was built up in two parts.  In the larger, back piece, two notches were nibbled out for the horns before being closed in by the front piece.  In the insert enlargement you can see how the curve of the table saw blade gave me an angle to the back of the notch that is needed to allow the horns to angle to match the tumblehome.
 

 
With the horns inserted in the shelf the bottom piece had two notches hollowed out in its back face for the lower ends of the horns.
 

 
The lower piece was flipped over and the horns glued into the notches.  The lower piece was then sanded to its clamshell shape and the upper ends of the horns were refined to angle up and out.  You can see the differences from the left fitting to the completed one on the right.
 

 
Here you can see a finished staghorn sitting on an angled scrap block to check that the shelf will be horizontal when mounted on the bulwark.
 

 
Here is the complete set of eight staghorns for the first model.
 

 
And here is the first one mounted in the waist ready for the lines that run through the hull sheaves for the main and spritsail sheets.
 

 
Next I turned to the gunport lids for the open gunports on the port side of the ship.  I have detailed their construction before in the section on the test gun station.  This one is for the forwardmost port, which is why the planking runs at an angle to match the hull planking.  The hinge straps are blackened brass strip secured with three iron pins.  The ends of the strips were ground to about half their width so they could fit into mounting holes in the hull.
 

 
The strips were all made to a uniform size in a simple jig.  A brass strip was trapped between two guides and the locations of the holes for the mounting pins was marked off.  Once the holes were drilled the strip was clipped to length at the edge of the jig.  I found that without pre-drilling these holes it was nearly impossible for me to drill them cleanly once the hinge strap was mounted on the gunport lid.
 

 
Each lid was marked for its proper location and the mounting holes were drilled just above the open gunport.  With the lids slid into the holes the brass could be gently bent so every lid was at the same angle.  This will be a significant advantage once they are permanently mounted, as they will be much less prone to snapping off when I bump into them (which I am sure that I will).  Here they are towards the bow - - -
 

 
And the stern.
 

 
To check them, I set the guns in place.  Here is what they look like in the waist as seen from outboard - - -
 

 
And along the length of the ship.
 

 
Finally, the entire broadside. 
 

 
I was happy with the look of the model, so the guns and gunport lids were removed to safe storage until the interior deck fittings are built and mounted.
 
The first of these was the riding bitts for the anchor cable.  As you can see from the plans it incorporates the 5-sheave post for the rigging to the ramshead block that raises and lowers the foreyard.
 

 
Construction was straightforward, with each piece cut and shaped, then notched and pinned in place.  The sheaves in the post are non-working, and made by drilling 5 pairs of holes through the post with a 0.040” drill in a miniature drill press.  The bitt was then put into a Dremel and the sheave slot between the holes was carved out.  Care has to be taken to allow for the right-hand torque of the bitt, but a little practice yields good results.
 

 
The next rigging fitting that I turned to were the multiple cleat ‘logs’ that sit just aft of the fore and main masts.  These were discussed earlier in the build log as well. 
 
Construction here was straightforward as well.  Once the dimensions were decided, two pieces of cherry were cut and the ends finished with slopes.  The underside of each was sanded to match the camber of the deck.  Ten slots were cut in the underside for the lines to run through.  It is quite probably that these slots would have been radiused on each side of the log so the line would run smoothly under the fixture.  The upper corners of the log were eased as well, as recommended by JerseyCityFrankie.  Matching photoetched brass cleats were obtained from Bluejacket, blackened and mounted. 
 

 
Here is the one on the quarterdeck aft of the main mast.  It looks good as is, although I clearly have to clean the deck which is getting very dusty.
 

 
Finally, to check that things are headed in the right direction, and to give my spirits a needed lift, I mounted the decks and the lower masts.  Hull construction and detailing have taken much, much longer than anticipated, but I can see some light at the end of the tunnel.  I just hope that it is not the oncoming train known as “RIGGING”.
 

 
Be well
 
Dan
 
 
 

HI all - 
 
After finishing up some other projects and some chores on the "honey-do" list, I am back building the QAR.   Here is my progress.
 
I realized that I had not planned or installed any scuppers from the gun deck to the outside of the hull.  Using a set of outside calipers I located and drilled five on each side of the hull.  I lined them with lead from a wine bottle wrapped around a toothpick, glued, and slid into place.  Once the glue was dry the excess was trimmed with a sharp blade.  They fit well when they were located under the gunports, though this meant that the upper ends in the waterways at the edges of the deck were all hidden by the guns.  Here are two on the port side of the hull.
 
1
 
Next I turned to the guns.  First were the stowed guns on the starboard side.  I played around with the test gun station that I made up a while ago to see how it might have been done.  I figured that the crew would have used the breaching rope and the train tackles which were already available.  I found that the breaching rope could be tightened up through the rings in the bulwark, which would have secured the gun pretty well.  Then the train tackles could run from the eyebolts on the carriage to the hooks in the bulwark.  Once they were tightened the remaining length of running line could be frapped (overwrapped) between the blocks.  I found that two layers perfectly used up the free line.  This seems a workable solution, but there certainly can be others.
 
Note that I have installed a lead vent cover secured with light line, which would have been used to keep water from entering and rusting the vent hole.  
 
2
 
Here is the line of four stowed guns in the waist. The guns are secured with a metal pin through the rear axle and into the deck, which is hidden between the truck and the carriage. There are two others, one forward under the foredeck and one aft under the quarterdeck, which can only be seen at a low angle.  Those that cannot be seen were not installed.  
 
3
 
On the port side the guns are run out, so all of them can be seen to some extent.  The three aftmost and the one in the bow were simplified.  The trucks were replaced with cleats for added glue surface and security, while the capsquares and rigging were not installed.  These were pinned in place as well.
 
4
 
The visible guns were glued to the deck and a metal pin was drilled at an angle through the rear axle and into the deck.  The breaching rope was rigged through the rings in the bulwark and secured to itself with two round seizings.  The rope was softened with water and shaped to 'droop' onto the deck.  Once it was approximately positioned it was painted with dilute pH neutral white glue and teased into final position as the glue dried.  This also secured it to the deck.  The train tackle was rigged from the carriage eyebolts to the bulwark hooks with the running line coiled on deck.  I did not flemish the coil since I do not think that a pirate ship would be that 'shipshape' or fastidious.
 
5
 
As long as I was rigging the guns, I experimented with loading procedures.  I was surprised to see that when the gun was fully run in for loading the back of the carriage covered up the deck ring behind it.  I double checked the length of French six-pounder cannon and the breadth of the deck and they were correct, so it is likely that this was what happened.  The only way I could make the system work was to hook the run-in tackle to the ring on the opposite side of the deck.   
 
6
 
With the copper clips standing in for the gun crew this seems to be a workable solution.  But again, this is speculation and may not be correct.
 
7
 
The rest of the port broadside was installed and rigged.
 
8
 
There are no pumps in Budriot's plans, but they do appear in a photograph of Berti's model of Le Mercure.  His are round, which I did not like, so I made mine hexagonal.  This was done in a straightforward way.  A length of half inch maple dowel was cut and the end marked with a six pointed star.  The lines were extended down the dowel then the wood was carved away between the lines.  The pump bodies were cut to length and the sides adjusted by hand sanding.
 
9
 
The well at the top was drilled, milled and darkened.  Blackened brass reinforcing rings were installed, as was a blackened brass outlet near the base of the pump.  The yoke for the handle was fashioned, installed and secured with three metal pins.  The handle was shaped and given a pivoting lifting bar at the business end that dropped into the well.  The handle was mounted on a metal axle pin through the yoke and the finished pump was given a coat of clear finish.
 
10
 
The completed pumps were installed adjacent to the main mast location.  Their bases had to be angled slightly to match the round-up of the deck, then secured with metal pins into the deck.  The handles are angled outward where they can be accessed easily by the crew without getting in the way of the rigging to come (at least I hope that there will be no problems).  
 
11
 
Using Pirate Pete for comparison, I am happy with the size, scale and look of the pumps.
 
12
 
More soon.  Be well.
 
Dan
 
 
 
 

I have been doing some research into the whole engine building aspect of this little launch. I made the top part of the engine this evening it still need a bit more work to add the top plat to seal in the water cavity the spark plugs will thread through the plate into the main body thereby allowing water to circulate around the part that goes through the cavity.
 
This drawing shows the section through the engine and sections through the cylinder head.
 

 
Buffalo 3HP sheet 1.pdf
 
this is the top part of the head
 

 
Buffalo 3HP sheet 2.pdf
 
And the brass part I made today
 

 

 

 
Michael
 
 

Oh how time flies when we're having fun.....
 
Ok.. got the shop back into shipyard mode and I'm working on the gunports.   I have to thin the frames down some (to 1/16" at the ports) so that their wide enough... Done!!!!
 
I then have to put in the sills, paying particular attention to the location at each end of the each sill.  I still check each one.  So far, 6 have been done.   I also check each one with check tool made from some yellowheart.  Actually not made.  Turns out the pen blank I bought as a sample to see what yellowheart looked like was about 1/64" inch too big.  A quick bit of sanding and it's perfect for the job.
 
I'm scratching my head as Hahn made most of his ships in 1:96 and just a few in bigger scales.  How the heck did thin the frames for the ports or get the level of detail he got, I'll never know.
 
Anyway.. the pic.  And like the rest of us, right now I'm hating the macro setting.       
 

Just a little more progress carving the sternpost on the port side, I am taking this very slowly.
 

 
This feels like a tricky detail but to all you full keel three mast shipbuilders it probably looks like child's play. this is much more difficult than the keel on the pilot cutter.
 

 

 
Here is a drawing showing the keel at each of the building stations
 

 
A sincere thank you to all who have pushed the like button, I really appreciate it.
 
Michael

Mark sorry I did not answer your question about the glue, it is LePages Carpenters glue. thanks to all who posted likes .
 
today I joined the keel plate to the keel with some 3 inch screws, first I marked the station positions on the plate and the keel, I don't want to glue them together just yet. I am going to do the rough shaping of the plate and the stern post first.
 

 

 

 

 
The stern post is a little more complex than the stem so I am proceeding very cautiously.
 

 

 
I noticed that whole assembly has straightened out a small amount, about 1/32 or a 1/4 inch scale size. I shall have to make sure when I do the final gluing that the curve is maintained.
 
Michael
 
 
 
 

Thanks for looking in Ed, sometimes I wonder how I get anything done because of the clutter. My wife does yoga ,I do my stretching stepping around over and between stuff which amounts to the same thing.
 
Today I made a few changes to the way the cross beam are attached to the frame. I thought it better to make it less cluttered by fixing the beams with some 5x40 allan head cap screws rather than the big wooden clamps. The frame will be easy enough to add new locations for further beams down the road on the next boat to use this frame. the present locations are spaced 4 feet apart (6inches). By bolting them it avoids any possible slippage, and helps to increase the overall rigidity.
 

 

 

 
The new station molds are made from 1/16th inch white plastic that is sold for the sunshine ceilings. It will be easier to tie the ribbands to the thinner sheet. here you can see the first mold with the holes marked before they were drilled for the eight ribbands. the drawing is attached with double sided tape.
here is the mold drawing #1
 

 
bulkhead 1.pdf
 
Now to work on the rest, the plastic cuts very nicely with the jewelers saw and require very little clean up.
 

 
Here is the fine bow on the real boat
 

 
Additional thanks to all who have added the like option, it is very motivating.
 
Michael
 

Hello to all who are following this build -
 
It has been a while since my last posting.  Summertime had a lot to do with it, but I also took some time away to work on a short-term and time critical project.  So here is a little diversion from this build.  It may merit a separate file, but as you will see later on, it is incomplete.
 
I was asked to restore a  presentation model of a modern container ship.  The CMA-CGM Vivaldi was built by Hyundai Samho Heavy Industries Co., Ltd. in their Makpo Shipyard in South Korea.   Launched in December, 2004 she was 334 meters LOA with a breadth of 42.3 m (just under 1100 ft LOA, 140 ft breadth).  Its carrying capacity was not listed on the dimensions plaque on the model, but it is huge.  Here she is in a photo from the company website of CMA-CMG Shipping, which owns and operates her as part of one of the world’s largest fleets of container ships.
 
1
 
The model was likely built in the same shipyard as a gift to thank CMA-CGM for the contract and was presented at the time of launch.  It is built to the small scale of 1:200, but the model is still 5 ½ feet long.  Given that the price for the ship was in the millions of dollars, it is not surprising that a good deal of care went into the construction of this presentation model. 
 
It was probably kept in one of their offices, perhaps in their headquarters in Marseille, for the last decade but then was presented in turn to a financing company in Stamford, Connecticut.  It was during the delivery of the model that things went bad.
 
Here is the crate that it came in.  You can see that although there is no obvious damage to the box itself, one of the bottom cleats is missing. 
 
2
 
I was called in when the box was opened and it was found that one of the glass panels of the case was cracked and there was some damage to the model. My first overall impression was that this was not going to be a hard job.  Some of the containers had been detached from their mountings and were tipped over, but they were still on deck and in a line.  The superstructure was in place and there was no evident damage to the hull.
 
3
 
Closer examination revealed that the devil had been playing in the details.  A large number of small pieces were lying on the blue felt base and some had even become trapped in the channel that the glass case sat in.  Fortunately many of them, including some quite complex assemblies, appeared undamaged like the one in the center of the photo.
 
4
 
 
A repair proposal was discussed, a fee agreed to, and work began with the recovery and conservation of any detached parts.  Once the wrapping of clear plastic was removed the impact point could be seen.  It was clear that there had been one sharp blow which had chipped and cracked the glass panel, but without separating it from the rest of the case. 
 
Unfortunately, this is exactly the kind of impact that cyano glue does not like.  With the help of JerseyCityFrankie the glass cover was removed and all of the loose parts were carefully collected.  The detached container units were numbered from the bow to the stern on sticky notes and set aside.  The grey railing units could not be immediately identified, but they were put into one container for later study.  All of the smaller parts such as the lifeboats, ladders, white railings, and various unknown pieces were put in another.
 
8
9
 
Now the full extent of the damage could be seen and assessed.  Along the edges of the hull most of the railings and stanchions were broken off, leaving unpainted spots showing where they had been attached.  At the stern there was additional damage where the railings and ladders had been crushed and even some pieces of the rigid styrene components had been broken.  When everything that was loose had been removed the deck was almost nude other than two container units at the bow that had somehow managed to remain in place.  This was packed up in bubble wrap and taken back to the studio in Brooklyn, NY.
 
12
 
The superstructure which had initially appeared to be generally sound was found to have suffered the most damage.  In additional to losing both lifeboats, most of the railing on the aft face was gone, as were numerous small parts for the lifeboat cranes.  All of the various radars and antennas on the topmost level were missing.  Most significantly, the starboard bridge wing was broken off almost completely. 
 
13
 
Although the proper locations of many of the pieces could be deduced from what they were, there were a great deal more that could have gone anywhere.  Fortunately the company had a second presentation model of the same ship, the Vivaldi.  A series of photographs were taken of the other model to guide the restoration.
 
Here is the bow, showing the white lookout mast which had been detached on the damaged model.  The ladder and safety cage had been separated and crushed, but now I could see how they had to be repaired.
 
14
 
Those gray railing units turned out to be catwalks that fit between the container units.  They sat on top of U-shaped pieces that supported the containers.  Photoetched ladders gave access to upper catwalks which were bordered by photoetched brass railings.  3-bar railings edged the deck all along the sides of the ship.
 
15a
 
The superstructure had 8 deck levels with a full array of electronic equipment on top.
 
16
 
This area was going to be the most challenging, with radars and antenna that were all made up of very small parts that were quite similar to each other.  The photographs that I was sent were not completely helpful in specifying what went where.  Fortunately, using my Photoshop program I could take the image provided and enlarge it, remove the color, and play with the brightness and contrast until I could see almost all of the details.
 
17
18
 
Now that I had the undamaged model as a guide I could start the actual repairs.  The first thing was to reassemble all of the catwalks.  Some were in pretty good shape, but others had been mauled, with most of the parts separated, some of the plastic parts broken off, and the photoetched brass rails badly bent.  Here is one of the catwalks with all its pieces and a second one after restoration.  There were 21 of these in all, which took up about half of the total restoration time.
 
19
 
Now for the incomplete part -
 
The next several weeks were spent doing the restoration.  I took construction photos as I went, as usual, but had not gotten around to downloading them. [i know you can see the problem coming . . . ]  Soon after I took the last photograph, my daughter and her two boys came over.  One is the newborn, the other 2 years old.  While I was doting on the young one, the other found the camera.  He likes to push buttons.  Enough said. 
 
Let me describe what I did, and I hope you can follow along using photos of the completed repair.
 
All of the least damaged catwalks were put back together.  Since there were small variations in how the bases had broken off of the hull I could locate about two thirds in their original positions, fitting them together like a jigsaw puzzle.  They were numbered and set aside.  One by one the rest were repaired until there were only two left, which were severely bent, with missing parts.  Some replacement parts were fabricated from bent wire, and others from brass shim.  Missing ladders were replaced with similar ones from the spares box.
 
21
 
Starting at the bow and working aft the containers and catwalks were glued to the cleaned up hull.  The containers sit on the corners of the catwalk bases and on a square stanchion between the forward and aft bases located on both edges of the deck.  This gives six attachment points for the double wide containers and four each for the single wide ones.  These also broke off irregularly.  Although each container unit was numbered when it was removed, several ones were out of order, and I had not recorded the orientation of the unit.  Each one was test fit to the proposed location and the irregularities let me confirm the original locations.
 
21a
 
The superstructure was the biggest challenge.  I first relocated the lifeboats and repaired their cranes.  Railings which were bent were carefully bent back and glued.  Some that had been detached were too badly bent to repair.  I had 3-bar railing of the right size in my spares box, but the rails were a bit thinner than those on the model.  I used them to replace the railings that would not be seen easily between the aft face of the superstructure and the container unit behind it.  Then I cannibalized the model railings from that area to replace railings in more obvious locations.
 
22
 
The photos that I miss most are those of the repair of the starboard bridge wing.  Here the impact had broken the brittle styrene that made up the bridge deck and the angled and pierced supports on the fore and aft faces.  The detached pieces had kicked around and were now mostly unusable shards.  I first carefully cut the damaged section away in a straight line across the deck with a miniature keyhole saw.  A piece of similarly thick styrene was cut to fit and glued in and the joint sanded smooth.  Artists acrylic paints were mixed to match the green of the deck  The shape of the aft diagonal support piece was traced from the existing one on the port side and cut out, fitted and finished. It was spray painted gloss white before being installed.  The end cap was similarly fitted.  All joints were cleaned up and touch-up painted.
 
22a
 
Using the photographs of the undamaged model the fittings and fixtures on the upper electronics decks on top of the wheelhouse were located.  Antennas, radars, and lightning rods were all glued in with cyano.  Nothing special here, just a delicate touch and perseverence.
 
23
 
Final small detail parts were installed and all of the spots where paint was chipped or missing were touched up and the model was carefully examined to find bent railings and other defects.  I know that I got almost all of them, but I also know that a few got bye, but I'm not telling where. 
 
A new glass case was ordered and delivered from a local custom glass shop.  So here is the completed model ready for delivery to the customer.  It was driven back to Stamford, CT, with a nervous moment for every pothole and road repair that I couldn't avoid.  It survived completely intact and was installed in the office to gratifying compliments from the customer.
 
24
 
Hope you enjoyed the divertimento.  Getting back to the QAR now.  A new build log post soon.
 
Be well
 
Dan