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Young America 1853 by EdT - FINISHED - extreme clipper


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Fantastic!  You focus on attention to detail on your builds as I do on making my refractor telescopes....wish I did the same for my ship builds.

 

Great work.

 

Rob

Current build:

Build log: https://modelshipworld.com/topic/25382-glory-of-the-seas-medium-clipper-1869-by-rwiederrich-196

 

 

Finished build:

Build log: of 1/128th Great Republic: http://modelshipworld.com/index.php/topic/13740-great-republic-by-rwiederrich-four-masted-extreme-clipper-1853/#

 

Current build(On hold):

Build log: 1/96  Donald McKay:http://modelshipworld.com/index.php?/topic/4522-donald-mckay-medium-clipper-by-rwiederrich-1855/

 

Completed build:  http://modelshipworld.com/index.php?/gallery/album/475-196-cutty-sark-plastic/

The LORD said, "See, I have set (them) aside...with skills of all kinds, to make artistic designs for work in gold, silver, and bronze, to cut and set stones, to work in wood, and to engage in all kinds of crafts."

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Hi Ed,

 

Looking good.......the boat too!

 

Best,

John

Member:

Connecticut Marine Model Society

Nautical Research Guild

Model Ship World

"So we beat on, boats against the current, bourne back ceaselessly into the past" F. Scott Fitzgerald - The Great Gatsby

"If at first you don’t succeed.......skydiving is probably not for you”

 

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Nice looking anchors.  Question I have done silver soldering but have never heard of  copper-phosphorus solder.

David B

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Thank you, all.

 

The joints are silver soldered.  I have been using copper-phosphorus solder in paste form with flux from a syringe.  I believe this solder blackens easier - particularly if using liver of sulfur on copper.  The solder has a lower (only 3%) silver content and melts at 1325 deg F.  On the flukes I used Easy grade that melts at 1205 deg F.  I use a propane torch for soldering - s mall one on small parts.  I used a full size torch on some of the anchor work for more heat.  As I said in the post, I would have used oxy-propane instead of the the large torch, but was out of oxygen.  It goes fast and is expensive.  I will be blackening the anchors with Birchwood Casey selenious brass blackening solution.  A link to my source for solder is given below.

 

Joints for silver soldering must be tight because the solder - unlike soft solder - will not fill gaps.  For this reason joints are very thin and become relatively invisible when filed off.

 

https://contenti.com/jewelry-soldering-supplies/solder

 

Ed

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Dirk, the soldering fixture is available from the same source as the link posted above.  The clamps are very solid and the jaws are tungsten.

 

Ed

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Young America - extreme clipper 1853
Part 162 – Bower Anchors 2

 

Although I worked on the two bower anchors simultaneously, I will stick with the iron bar stock version through to its completion, then post the work on the wooden stock version in one sequence.  Although very similar, there are a number of differences in their construction.  There are a lot of steps to making these, so I will just summarize here.

 

The first picture shows work on the large shackle at the top of the first anchor.

 

post-570-0-62413500-1463512055.jpg

 

The shackles on the bower anchors are by far the largest on the ship.  In the picture one of the ends is being flattened to increase its breadth.  It was then drilled for the bolt holes.  The next picture shows the shackle bolted to the top of the anchor shaft.

 

post-570-0-99080800-1463512055.jpg

 

A touch of silver solder on one end keeps the bolt in place. 

 

Iron bar stock anchors were coming into use during the YA period.  Some had a simple straight-ended bar.  Some had screwed or pinned balls at the end and most of the later versions featured a right angle bend at the end. I decided on the simple straight bar.  In the next picture the 6” diameter bar stock, with its two 9” bosses, is being turned from a 1/8” brass rod.

 

post-570-0-69898200-1463512056.jpg

 

The rod is held on center at the tail end by the drill chuck just lightly tightened.  A file is being used to finish the diameter.  Flexing in long thin turnings like this makes final sizing difficult with cutting tools but the file works fine on the last 10 thousandths or so near the middle.  In the next picture the bar has been finished turning, cut to length and drilled for the forelock that will keep it in place on the anchor shaft.

 

post-570-0-95853800-1463512056.jpg

 

In the picture a jeweler’s saw is being used to cut the slot for the forelock.  In the next picture the bar has again been drilled, this time for the eyebolt that will secure the forelock chain.  The eyebolt with chain was then soldered into the hole.

 

post-570-0-22822400-1463512057.jpg

 

I am making all eyebolts from twisted wire, in this case the wire was passed through the chain before spinning it up.  The next picture shows all the parts for this anchor, including the forelock.

 

post-570-0-78667900-1463512057.jpg

 

I want to blacken the bar assembly and the anchor separately.  The bar will finally be held in by the forelock.  The next picture shows the forelock and the chain connected by a shackle.

 

post-570-0-08416800-1463512058.jpg

 

On small shackles like this one the bolt end is simulated by silver soldering a straight brass rod across the ends.  I expect to use this method on the many rigging shackles to come later.  By the period of this ship shackles had largely replaced ringbolts that had to be permanently forged to the eyebolt beforehand.  The beauty of the shackle was that it could be easily fitted and removed.  The method shown above offers no such advantage as will be seen later where shackles are fitted to eyebolts in wood or in rigging.  In the above picture the shackle has been prepared for soldering with both the chain and the forelock threaded onto it.  I used easy solder and a very light pass with the torch to prevent welding the whole array together in one blob.

 

The last picture shows the completed anchor.

 

post-570-0-36157100-1463512058.jpg

 

I almost hate to blacken this.

 

Ed

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Now that is funny Druxey!!

 

If I could make something that beautiful once... I would close the book!

 

I hope you take another set of professional looking photos that match the magnificent work, pick the best, frame it and nail it to the wall (or silver solder it to the wall)... then blacken the original as you intended so we can continue to be amazed.

Edited by AON

Alan O'Neill
"only dead fish go with the flow"   :dancetl6:

Ongoing Build (31 Dec 2013) - HMS BELLEROPHON (1786), POF scratch build, scale 1:64, 74 gun 3rd rate Man of War, Arrogant Class

Member of the Model Shipwrights of Niagara, Niagara Region, Ontario, Canada (2016), and the Nautical Research Guild (since 2014)

Associate member of the Nautical Research and Model Ship Society (2021)

Offshore member of The Society of Model Shipwrights (2021)

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I agree with all the comments regarding the Anchor exquisite,  that said I noticed that the main part of the body looks as though it is the same as the drawing underneath, and it looks like you shortened the bar that goes through. I am curious about whether the scale of the drawing is full size or you changed your mind about the bar.

 

Michael

Current builds  Bristol Pilot Cutter 1:8;      Skipjack 19 foot Launch 1:8;       Herreshoff Buzzards Bay 14 1:8

Other projects  Pilot Cutter 1:500 ;   Maria, 1:2  Now just a memory    

Future model Gill Smith Catboat Pauline 1:8

Finished projects  A Bassett Lowke steamship Albertic 1:100  

 

Anything you can imagine is possible, when you put your mind to it.

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When you were working on your lathe I thought I saw your rod in a tube from  the tail stock.  If so did you some wax or lubricant?

David B

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Thank you all for the comments and likes.

 

Very perceptive, Micheal.  I see I cannot get away with anything here.  A number of things are going on here.  First, the length of the anchor and the bar are based on a rule of thumb that they be equal in length.  The drawing was based on a length of 13'-0".  Subsequent checking of sources argued for a lengths as small as 12'.  The as-built length of the anchor is about 12' 6" and I made the length of the bar about the same.   Therefore, seeing the bar slightly shorter than the drawing did not concern me, but when doing the final drawing check, I saw that the bar length on the drawing is too long because of the way I placed the ball at the end.  The overall length has been corrected on the drawing.  Both lengths are 13' as the drawing now stands.  I may downsize it toward 12', but knowing that there was a lot of dimensional variation in these American anchors of the period, I may not bother.  For example, Campbell (China Tea Clippers) gives a 12'3" overall length for a 1200 ton ship.  YA was 1900 tons.  So, welcome to my world.

 

David, I did not bother with any lubricant.  I try to avoid using it around the lathe (and mill) to avoid getting it on wood pieces.  Using the chuck as a tailstock center was pure expedient.  A better method would be to use a short piece of 1/8" id tubing held in the chuck.  I could easily have done this but wanted to try the chuck.  It worked fine.

 

Tom, I glossed over many of the steps in the process,  but I am documenting it better for future reference.

 

I should have some pictures of the second anchor within a few days.

 

Ed

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Thanks for the explanation Ed. Interesting issue with the tailstock for the brass, the use of the chuck is basically the same as using a fixed or traveling steady, that usually have three bars that fit around the work. The edges of the jaws serve the same purpose. Sometimes it is the easiest solution.

 

Michael 

Current builds  Bristol Pilot Cutter 1:8;      Skipjack 19 foot Launch 1:8;       Herreshoff Buzzards Bay 14 1:8

Other projects  Pilot Cutter 1:500 ;   Maria, 1:2  Now just a memory    

Future model Gill Smith Catboat Pauline 1:8

Finished projects  A Bassett Lowke steamship Albertic 1:100  

 

Anything you can imagine is possible, when you put your mind to it.

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Young America - extreme clipper 1853
Part 163 – Bower Anchors 3

 

In the last part the fabrication of what will be the port bower anchor was completed.  That anchor has still to be blackened and mounted.  Work on the starboard anchor went on concurrently and is described in this part.  In the first picture the shaft and arms of that second anchor have been soldered and it has been set up to solder some short lengths of telescoping square tube that will be used to shape the boss for the wood stock.

 

post-570-0-32515300-1463748451.jpg

 

The configuration is different from the first iron bar stock anchor.  In the next picture shaping of the fully soldered anchor has just begun.

 

post-570-0-78530800-1463748451.jpg

 

On the first anchor the shackle bolt was soldered in place on the finished anchor.  On this anchor the wooden stock must be installed before the shackle so the shackle bolt was threaded into the shackle to avoid soldering with the wood stock in place.  The threaded rod and shackle are shown below.

 

post-570-0-45886500-1463748452.jpg

 

The still unshaped anchor is also shown in this picture.  The shackle threads were made with a jeweler’s tap and die. 

 

The next step was to make the wooden stock.  In the next picture one of the two halves is being mortised to fit over the square anchor shaft.

 

post-570-0-08949800-1463748453.jpg

 

Before final shaping of the wooden stock, the iron bands were made.  This may appear backward in sequence but I think it is easier to do the final fitting of the bands by light sanding/filing of the wood stock, rather than to precisely size the bands. 

 

To accurately shape the bands a wood form was made to match the anchor stock shape.  This was marked for band location and copper strips were bent around the form at each location.  In the next picture a razor blade is being tapped with a hammer at an angle to cut the overlapped band to precisely size it and form the joint for soldering.

 

post-570-0-36427000-1463748453.jpg

 

The next picture shows the band joint (and the cut damage to the wood form).  It was then removed from the wood, soldered, replaced on the wood form and cleaned up with files and abrasive sticks.

 

post-570-0-61277300-1463748453.jpg

 

Using the wood form for fitting, clean-up and polishing avoids damage to the actual stock and also keeps it clean of metal dust.  In the next picture the six bands have been fitted.

 

post-570-0-21942600-1463748454.jpg

 

Fitting of the bands required light filing sanding of the wooden stock to the point where each band would fit tightly at its final location.  In the above picture the polished bands have been pressed into place, and are ready for blackening.  In the last picture all of the iron parts have been blackened and the anchor is ready for assembly.

 

post-570-0-85956900-1463748454.jpg

 

All of the metal parts were pickled in heated white vinegar, polished, soaked in TIVA cleaning solution, and rinsed before treatment.  The copper bands on the stock were brushed liberally with liver of sulfur solution.  When black, the assembly was rinsed in clean water.  The brass anchor and shackle parts were dipped in diluted Birch-Casey brass black, brushed until black, rinsed, buffed with Q-tips, and allowed to dry.

 

The tight fit of the bands on the stock and the stock on the shaft may be sufficient without glue.  I may use a tiny drop of CA on the underside of each band and on the anchor shaft just to be safe.  The anchor shackle will be attached to a soldered chain shackle so will be installed later when those parts are made.

 

Ed

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Ed,

A couple of questions: The wooden stock appears to be laminated. Presumably this was done for strength and to simplify the mortise fabrication?  Also, you imply that the wood stock bands were blackened after installation.  How did you keep the wood stock from discoloration?  In the photo the blackened brass appears to be more bronze colored than black.  Is that an artifact of the photography or the accurate color?

 

Bob

Bob

____________________________________________

Current Build:  Mantua "USS Constitution - 1797"

 

Pending:  Model Shipways "USS Constitution"

 

Completed:  Model Shipways "USF Essex -1799"

                    Model Shipways "New Bedford Whale Boat"

                    Billings "Zwarta Zee" (RC)

                    BlueJacket "Sequin" Tugboat (RC)

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Beautiful, Ed.  The finish on the anchor is perfect.  I don't recall you mentioning the TIVA cleaning solution before - what role does it play in the finish?

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Ed,

A couple of questions: The wooden stock appears to be laminated. Presumably this was done for strength and to simplify the mortise fabrication?

 

Bob

I believe the stock would have been made from 2 pieces originally.

 

Richard

Edited by RichardG

Richard

Current Build: Early 19th Century US Revenue Cutter (Artesania Latina "Dallas" - messed about)

Completed Build: Yakatabune - Japanese - Woody Joe mini

Member: Nautical Research Guild & Midwest Model Shipwrights

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Absolutely superb workmanship on this Anchor I especially like how you solved the flared square section and the sizing of the bands.

 

Michael

Current builds  Bristol Pilot Cutter 1:8;      Skipjack 19 foot Launch 1:8;       Herreshoff Buzzards Bay 14 1:8

Other projects  Pilot Cutter 1:500 ;   Maria, 1:2  Now just a memory    

Future model Gill Smith Catboat Pauline 1:8

Finished projects  A Bassett Lowke steamship Albertic 1:100  

 

Anything you can imagine is possible, when you put your mind to it.

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Thank you all very much for all these comments, questions, and likes.  Let me respond to some:

 

Bob, the wooden stock is made in two pieces.  Richard is correct.  The two sides were usually fitted over a boss on the shaft that kept it is place, even in the occasional presence of a boss below the stock as I have shown.  The two pieces were cut so there would be a gap toward the center, allowing the iron bands that were shrunk on to tighten the grip on the shaft.  There were many styles of stocks used in the "non-standard" early period of American merchant sail.

 

The copper bands were blackened after pressing into place on the stock.  The stock was finish sanded first.  I have found that liver of sulfur solution has no effect on surrounding wood - unless there are metal filings or dust on the wood.  LOS quickly neutralizes to an inert white slurry, so there is no active material left on the wood, as there would be with the blue selenium salt solutions used on brass.   Rinsing the LOS solution as soon as blackening is achieved is a precaution.  This is the reason I use copper for many parts.   LOS does not blacken brass.  All the iron knees on Naiad were blackened after being installed and the wood is still clean.  Rinsing was not very practical for these.  I emphasize that the wood needs to be free of metal dust, one reason to use a sacrificial forming piece for shaping and and polishing of the bands - another is razor blade cuts into the wood.

 

The red hue in the photo appears to be from the effect of the lighting on the photo.  It appears quite black "in person."  

 

Thank you, Frank.  I use the TIVA solution for degreasing after pickling - rather than solvents.  TIVA is a commercial product for cleaning metal before treating.  It is normally used in ultrasonic tanks, but seems to work well as a room temperature dip.  I am increasingly convinced that the most important step in blackening is pickling of soldered parts, followed by polishing the metal surface.    I usually drop the still-hot, soldered pieces into Sparex solution after each joint to knock off most of the oxidation and flux.  Lately, after completion of all soldering, I have been immersing the parts in white vinegar, bringing it to a boil (as in food pickling) then letting it cool for a few hours before final polishing.  This has worked well.

 

Thanks, Druxey.  If I can add a good idea to your repertoire, I am indeed flattered.  The .005" copper cut easily with a razor blade or a surgical scalpel. I am anxious to try it on the thicker material that will be used on the many yard and mast bands that await.  I may use a turned, slightly tapered, metal mandrel for those.  We'll see.

 

Ed

Edited by EdT
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I am reminded of an anecdote about Oscar Wilde. In company one evening, he made one of his witty remarks. Someone laughed and said "I wish I'd thought of that!" Oscar replied, "Oh, you will, you will!" I'll think of cutting bands to exact length that way soon, Ed.

Be sure to sign up for an epic Nelson/Trafalgar project if you would like to see it made into a TV series  http://trafalgar.tv

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Ed, brilliant thing ... no mold could do this !!! ... perfect blackening .

 

Zoran

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Young America - extreme clipper 1853
Part 164 – Anchor Release Gear/Mounting

 

Like many specific details, the gear used to release Young America’s anchors is not known.  However, I wanted to include it in the model since it does seem to be a pretty important part of the gear.  The type used is typical of the period and is shown in the first picture.

 

post-570-0-94720900-1464109245.jpg

 

George Campbell’s work, China Tea Clippers, is a great source of deck detail for ships of the period and was the source for the design of anchor release gear used.  The gear consists of a levered arm that has a spoon-like half cylinder at its outboard end.  In the normal position this device supports a pin from which one end of a short chain is suspended.  The other end of this chain is bolted to the opposite side of the cathead.  When the anchor is suspended before release, this chain holds the anchor’s main shackle which at this stage would be secured to the anchor chain cable.  To release the anchor, the lever inside the bulkhead is raised, allowing the pin at the end to fall free, releasing the short chain and the anchor.

 

The next picture shows the lever with the tubular support at the end soldered on.  Another rod for the release pin has been positioned on the end of the lever.  On the model it will be soldered in place, cut off, and a bolt eye soldered to it.  The three eyebolts that hold the lever to the cathead were threaded on to the shaft before any soldering.

 

post-570-0-51636300-1464109246.jpg

 

The next picture shows the short length of chain with a shackle about to be soldered to the release pin. 

 

post-570-0-30427200-1464109247.jpg

 

Obviously this will not be a working model.  The next picture shows the assembly in position so holes for the eyebolts and the pin bolt can be spotted.  An opening was cut under the topgallant rail to just pass the inboard end of the lever and the inside eyebolt.

 

post-570-0-94081900-1464109247.jpg

 

The next picture shows the assembly blackened, installed and temporarily suspending the wooden stock bower anchor. 

 

post-570-0-42450800-1464109248.jpg

 

The next picture shows the iron bar stock anchor blackened and placed on its eventual resting place on the other side – again temporarily.

 

post-570-0-28989300-1464109249.jpg

 

Three wood chocks were installed to support each anchor in their stored positions.  These can be seen in the last picture.

 

post-570-0-97974200-1464109249.jpg

 

 

Eyebolts with restraining lashings will eventually be fitted to each of the chocks, but that will await final installation along with the chain that will be run over the winch and out the hawse hole on the starboard side.  For now the anchors will go into storage.

 

Ed

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