by Mike Elliott, Kettle River Canoes

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If the seats in your canoe are laced with rawhide similar to that in old snowshoes, chances are you own a “Huron” canoe – the generic name for canoes built in Huron Village (renamed Wendake in 1986). The “babiche” is likely to last longer than the canoe, but at some point you may need to re-lace the seat frames.

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Seat frames for “Huron” canoes are constructed of birch or maple and assembled with mortise and tenon joints that are very rough and loose.  No glue is used, so the rawhide lacing is the only thing holding the frames together. As with all of the other components in a canoe, I prefer to apply finish to the frames before I lace them.  The bow seat requires about 65’ (20 meters) of 3/16” (5 mm) rawhide lace while the stern seat requires about 50’ (15 meters). The lacing is usually shipped in a long tube and is as hard as a rock.  It has to be soaked for several hours before it can be used to lace the seats.  I use the bath tub at home and add a little borax to the water to help loosen the rawhide and make it easier to manipulate.  It will take a few hours to lace a seat, so keep a large bowl of water nearby in order to re-soak the lacing as you work. Handling rawhide lace for several hours can be hard on the hands and the borax can really dry out your skin. Use a hand lotion both before and after lacing a seat to help avoid damage to your skin.

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The lacing pattern I describe is the most common one found in canoe seats. It is by no means the only one.  The process can be applied to all the other patterns.  However, some are more complicated than others.  The stern seat has 36 anchor-points – 9 on each of the 4 frame rails. The bow seat is wider than the stern seat.  Therefore, it usually has 11 anchor-points on each of the frame rails.  In order to make this fit, the anchor-points on the side rails are placed very close together.  This will provide enough room for one more complete repetition of the pattern.

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The only tool I use is a sharp pocket knife.  It trims the lacing and cuts small slits in the ends of pieces for joining.  The entire pattern is laced using just a few basic knots and joins.  The starting anchor join at 1.1 is made by threading the lace through a small slit in the end of the first lace in the pattern.  Throughout the lacing pattern, pull the rawhide firmly but not tight.  As the rawhide dries, it becomes very tight.

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All of the remaining anchor points are tied using a larks-head knot.  To perform this knot, you start by passing the lace over the frame.  Wrap around to come up on the “outer” side of the lace and pass over the strand that was just made.  Bring the lace back under the frame, then around to finally pass back over the frame and under the lace “bridge” to form the knot.  In this case, a picture is worth a thousand words, so use the photo as your guide.

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Anchor-points 1.2, 1.3 and 1.4 form a triangle pattern on the frame. As you go from 1.3 to create the anchor-point at 1.4, pass the strand under the horizontal. The strand then passes over the horizontal and under the diagonal “forward slash” ( / ) strand before tying off at anchor point 1.5.  All subsequent weaving in the fourth strand follows this pattern.

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The fifth strand of the pattern passes over the forward slash strand and under the “backslash” (\ ) strand before tying off at anchor point 1.6. All of the subsequent weaving in the fifth strand follows this pattern.

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The sixth strand weaves over the “backslash” strand and under the horizontal strand before tying off at anchor point 1.7. All of the subsequent weaving in the sixth strand follows this pattern.

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The seventh strand passes over the horizontal strands and under the “forward slash” strand before tying off at anchor point 1.8. All subsequent weaving in the seventh strand follows this pattern.

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The eighth strand does not have any weaving, but it finishes by passing over both the fourth and the fifth strands at the fifth anchor-point in that repetition of the pattern.  It wraps under the strands and then up and over itself before forming the first anchor-point in the next repetition of the pattern.

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From now on the pattern is repeated with one addition. After forming the second anchor-point in the pattern and before weaving the second strand, stabilize it by passing over both the fifth and seventh strands of the previous set, then come up and over itself.  The second strand requires no weaving.

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The seat is woven with progressively more and more weaving required as each set of the pattern is performed.

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At some point, usually two or three times in a given seat, you come to the end of a piece of rawhide lace.  To continue weaving, join the next lace to the previous one.  The joins are made by cutting a small slit in each end.  The end of the old strand is passed through the slit in the new strand.  The entire new strand is then fed through the slit in the end of the old strand to create a secure join.  I like to locate the joins so they lie on the underside of the frame.

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Once you have completed the lacing pattern, the last larks-head knot is tied at the final anchor-point and the rawhide is knotted with one or two half-hitches.

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Allow the rawhide to dry for a couple of days. Then apply a mixture of two parts boiled linseed oil and one part turpentine.  Let the oil mixture dry for at least a week. The seat will be finished with shellac and varnished along with the rest of the new wood in the canoe.

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All of this (and much more) is described in my book – This Old Canoe: How To Restore Your Wood Canvas Canoe.
If you live in Canada, CLICK HERE to buy the book.
If you live in the USA, CLICK HERE to buy the book.
If you live in the UK, CLICK HERE to buy the book.
Si vous habitez en France, CLIQUEZ ICI acheter le livre.

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Conor Mihell is an editor-at-large for Canoe&Kayak Magazine.  He has just posted a review of This Old Canoe: How To Restore Your Wood-Canvas Canoe.

Check it out:

Review of This Old Canoe – Canoe and Kayak

Murat Vardar writes a fascinating blog about Paddle Making (and other canoe stuff).  He has also written a review of This Old Canoe.

Review of This Old Canoe – Paddle Making blog

If you have read the book, post a review of your own:

Buy the Book and write a review

by Mike Elliott, Kettle River Canoes

If you are preparing to restore your wood-canvas canoe – especially in Canada – you are often looking at a canoe built by the Chestnut Canoe Company based in New Brunswick from 1897 to 1978.  Of the many models produced over the years, the 16′ Pleasure Canoe was one of their best sellers.  It had a variety of names and the hull shape changed as well over the course of eighty years.  However, this canoe is most commonly referred to as the Chestnut Pal.

The dimensions of the components that make up the Pal are often the same as those found in many other Chestnut (and Peterborough) canoe models – including the famous Chestnut Prospector.  As a result, if you have these dimensions, you can use them to restore about thirty different canoe models.  So, here is a restorer’s guide to the Chestnut Pal.

Chestnut Ajax circa 1952

This Chestnut pleasure canoe is from around 1952. The telegraph code was Ajax. It was 16′ LOA and had a 34″ beam.

 

The 16’ Pleasure Canoe from the Chestnut Canoe Company had a number of incarnations over the years.  From the early 1900’s until 1953 it had a 34” beam, its ribs were 1.5” wide and was called the Ajax.  Then the beam was widened to 36” and it was called either the Pal (1954 – 1978) or the Deer (1965 – 1978).  Through the later years, the ribs were either 1.5” wide or 2-3/8” wide.

 One little note here: I am listing all of the dimensions in inches.  I apologize to all of you who are working in metric.  The canoes were built with imperial measurements originally, so I find it easier and more accurate to stick with this measurement scale.

Inwales –The inwale is a length of ash 15/16” high.  It is fashioned to fit the tumblehome present on most Chestnut canoes.  Therefore, the top surface is ¾” wide while the bottom width is 7/8”.  The last 15” or so at each end is tapered down to about 5/8” wide along the sides of the decks.  All of the transverse components (thwarts and seats are attached to the inwales with 10-24 (3/16”) galvanized steel carriage bolts.  I replace these with 10-24 silicon-bronze carriage bolts.

Outwales – The outwales are also made of Ash.  Depending on when the canoe was built, the outwales may have a chamfered edge on the bottom of the outside surface.  Water often gets trapped under the outwales and results in rot on the inside surface.  Therefore, I usually end up replacing this component and I make sure I seal all of the surfaces with shellac and varnish before installing the outwales.  The sheer-line of Chestnut and Peterborough Pleasure Canoes turns up sharply about 18” from the end.  As a result, it is necessary to soak, heat and pre-bent new inwales and outwales over custom-built forms to make the ash fit without breaking.

It is also worth noting that both the inwales and outwales were very often made by joining two pieces together with a 9″ scarf joint to create the full length Ash required.  Apparently, it was difficult to get full length Ash even in the 1960′s.

Decks – The decks were made of hardwood – usually maple, ash or oak.  By the time you start restoring your canoe, the decks are often rotted along with the stem-tops and inwale-ends.  They are attached to the inwales with six 2” #8 bronze wood screws.  The deck extends about 15” into the canoe from the end.

Stem-Top – You will rarely if ever have to replace the entire stem.  However, I rarely see an original stem-top that is not partially or completely rotted away.  Because the top 6” or so of the stem is straight, you can usually make the repair without having to pre-bend the wood to fit the original stem-profile.

Keel – If you want to keep the shoe keel as part of the canoe, it is a simple piece to make.  Use a piece of hardwood (the original was ash) and taper each end to 3/8” wide.  The overall length is about 14’.  It will accept the brass stem-band which is 3/8” wide.

Ribs – There were typically two styles of ribs used in Chestnut Pleasure Canoes.  Depending on the age and model, the ribs were either “narrow” slats 3/8” thick and 1½” wide or so-called “regular” ribs that were 3/8” thick and 2-3/8” wide.

The edges of the narrow ribs are chamfered 18° on both sides with the top corners rounded off slightly.  The edge of the regular rib closest to the centre of the canoe has tapered ends (11° chamfer) while the edge closest to one end of the canoe is chamfered about 30°.  The chamfer angles varied over the years, so you will have to use the original ribs in your canoe as templates.  There are 2” spaces between the regular ribs and 1½″ spaces between the narrow ribs.

Planking – The planking in Chestnut Canoes was made of either Eastern White Cedar or Western Red Cedar.  They started out being 5/32″ thick, but were often sanded down from there.  I often have to pass new planking through the thickness planer to match the thickness of the original planks.

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Seats – The seat frames are made of ¾” hardwood (ash, oak or maple) 1½” wide and hand-caned seats.  Both seats are suspended under the inwales with 10-24 carriage bolts and held in position with 5/8” hardwood dowel.  The rear stern seat dowels are 1¾” long while the front dowels are ¾” long.  All of the bow seat dowels are ¾” long.  Again, this varied over the years.  When re-installing seats, I tend to use 1¾” spacers for the bow seat.  The stern spacers are then 1¾” and 2¾”.  This adds a noticeable degree of stability to the canoe.  The forward edge of the bow seat is 58” from the bow-end of the canoe while the forward edge of the stern seat is 38½” from the stern-end of the canoe.

Thwarts – The thwarts are made of ¾” hardwood (ash, oak or maple) that is 2½” wide.  They taper from the centre to create handle grips on either side that are 2” wide.  They were attached directly under the inwales with galvanized steel 10-24 carriage bolts.  The stern-quarter thwart is positioned 67” from the stern-end of the canoe while the centre thwart is positioned 96” from both ends.

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All of this (and much more) is described in my book – This Old Canoe: How To Restore Your Wood Canvas Canoe.
If you live in Canada, CLICK HERE to buy the book.
If you live in the USA, CLICK HERE to buy the book.
If you live in the UK, CLICK HERE to buy the book.
Si vous habitez en France, CLIQUEZ ICI acheter le livre.

by Mike Elliott, Kettle River Canoes

This Old Canoe Book signing Penticton

The book tour for This Old Canoe starts in Penticton, BC at the Penticton Public Library on Friday, April 15 at noon.  The fun continues with a presentation at the Penticton Museum on Saturday, April 16 at 2:00 pm.

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I look forward to seeing you there.

by Mike Elliott, Kettle River Canoes

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Without a doubt, the most horrible job in the restoration of a wood-canvas canoe is stripping the varnish from the interior.  It is messy, stinky, agonizing work that takes forever and cannot be rushed.  Truly, the only positive thing to be said about stripping varnish is that as long as you keep going, the job will end.

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However, it is not always necessary to strip the old varnish.  If the interior varnish is in good shape – not peeling, cracked or gone altogether – you can simply clean the interior with TSP (tri-sodium phosphate) and rough up the surface of the varnish with fine steel wool.  After vacuuming the interior and removing any residual dust and débris with a tack cloth, you are ready to apply new varnish.  In my experience, if the varnish is stripped with chemicals, the canvas has to be replaced as well.  As a result, one big job leads to another.  That is why many people opt for simply cleaning the interior and applying new varnish to whatever is still there.

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If, as is often the case, the interior varnish is peeling away, breaking apart or gone completely, the varnish has to come off in order to rebuild the interior finish from the ground up.  Sometimes, the varnish is peeling so much that it comes off with a combination of a paint scraper, coarse steel wool and a lot of elbow grease.  I have tried sanders and “sandpaper stripping wheels” powered by a variable-speed drill, but soon gave them up when I saw that I was removing just as much wood as varnish.

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When it comes right down to it, the best way to remove all of the old varnish (and still have the original ribs and planking left intact) is to apply chemical strippers. I strip the old varnish before removing the old canvas.  This way, the chemicals tend to stay inside the canoe.  They soak into the old canvas and lift the filler and paint from the canvas, so unless you are extremely careful with the chemicals, you cannot strip the interior varnish without then putting a new canvas on the canoe.

I have heard of some people using a pressure washer to remove the chemicals from the hull once they have done their job.  This would work well as long as the nozzle is wide enough to reduce the pressure to avoid ripping the planking apart.  One downside I see to removing the chemicals with a pressure washer is that the work is usually done outside, often in your backyard.  Consequently, all those nasty chemicals end up on the ground and (probably) in the water-table.  At the very least, you succeed in killing the grass in that corner of the backyard.

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When stripping varnish, the first step is to protect yourself from all those nasty chemicals.  The commercial products usually contain dichloromethane (commonly used as a propellant in aerosol cans) and methanol (wood alcohol).  Sometimes toluene (lacquer thinner) rounds out the mix.  Besides long sleeves, long pants and an apron or coveralls, be sure to wear gloves (heavy-duty latex/neoprene), a respirator and eye protection.  Have lots of water close at hand to wash off any stripper that contacts your skin.

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It is essential to maintain a wetted surface when using varnish strippers.  It evaporates quickly, so be sure to use lots of this stuff and do the canoe in small sections.  I usually divide the job into four quarters of the canoe.  Once the stripper has been poured onto a section of the canoe, use a sturdy scrub-brush (natural bristles) to spread the chemicals around and ensure that they get into every corner and let it work on the old varnish for about 20 minutes.  When it turns dark brown and becomes thick, you know it is working.

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Use a scrub brush and a scraper to remove the stripper.

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Any stripper remaining in the canoe can be cleaned out with TSP mixed in a pail of water.  Use a scrub brush, a scraper and/or steel wool to ensure that remaining stripper is removed from all of the nooks and crannies.  Once the hull interior has dried, I go over the wood again with medium or fine steel wool to remove the last of the TSP and/or chemical stripper residue.  Then, vacuum the interior to remove the dust and steel wool fragments to finish the job.

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This takes as long as it takes – no short cuts.  As with almost everything in life, if you don’t do a good job on the foundation work, it just creates problems later on.  As much as I want this job to be done as quickly as possible, there is no way to speed it up.  It takes time to do a thorough job.  In 2014, I coordinated the restoration of two 30′ C-15 Racing War Canoes (circa 1949) for the museum in Penticton, BC.  A crew of six people took five weeks and four times through the canoes with those nasty chemicals to remove all of the old varnish.  They were happy to see the end of that job.

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All of this (and much more) is described in my book – This Old Canoe: How To Restore Your Wood Canvas Canoe.
If you live in Canada, CLICK HERE to buy the book.
If you live in the USA, CLICK HERE to buy the book.
If you live in the UK, CLICK HERE to buy the book.
Si vous habitez en France, CLIQUEZ ICI acheter le livre.

by Mike Elliott, Kettle River Canoes

While repairing your wood-canvas canoe, you may come across some ribs that are perfectly good except for a small portion attached to the inwale.  Rather than replacing the ribs, it is possible to repair the rib-tops.

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First of all, you need access to a substantial portion of the damaged ribs in order to do the repair.  Remove the planking along the sheer line to expose all of the damaged rib-tops.  Identify each piece of planking as it comes off since you may be able to replace the original pieces once the repairs are completed.

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Now, machine new cedar to replace the damaged rib-tops.  Sometimes the rib-tops are tapered, so make sure each replacement piece is cut and shaped to match the original wood.

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Cut the rotted top off the rib to be repaired.  I use a Japanese utility saw with 14 teeth per inch.

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Create a scarf angle in the original rib.  For a solid scarf joint, the glued surface ought to be at least six times that of the rib thickness.  Therefore, ribs 3/8” thick have a scarf angle with a surface area approximately 2¼” long.  You can use a rasp to make the scarf.  I use a 4” angle grinder that is set up with a 24-grit sandpaper disc.  It makes quick work of the job – perhaps too quick, so careful attention and a light touch are needed.

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Line up the new wood with the original rib and mark the location of the matching scarf.

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Create the matching scarf in the new cedar.

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Glue the new wood to the original rib and clamp it in place with spring clamps.  I use either a water-proof resorcinol glue (such as Weldwood or Dural) or a polyurethane glue (such as Gorilla Glue).  The resorcinol glues are water-based which makes clean-up a breeze.  After clamping the new piece in place, wipe away any excess glue with a damp rag.  When dry, it sands easily and blends well with the wood.  Polyurethane glue sets more quickly, sands easily once cured and creates a very strong bond.  Lacquer Thinner is used to clean up polyurethane glues.  I use these two glues interchangeably.

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The repaired rib-top is fairly rough at first.

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However, a quick sanding evens out the joint and creates a clean repair.

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Attach the rib-top to the inwale (I use 7/8” 14-gauge bronze ring nails, copper canoe nails or brass canoe tacks) and trim the rib-top flush with the top edge of the inwale.

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When faced with rib-top repairs next to each other, it is easiest to do every second rib-top to avoid clamping difficulties.  Therefore, it takes a couple of days to complete all of the repairs.

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If most of the rib-tops in your canoe are rotted, it is still possible to repair the ribs rather than replace every rib in the canoe.  Since every rib will be cut, the original sheer-line will be lost.  Therefore, the first step is to establish a reference line for the sheer-line.  Go around the canoe with a carpenter’s pencil and mark a position 5” below the top of each rib.  Where the entire top of the rib has rotted away, skip to the next rib and mark the reference point there.  This will give you enough reference points to create a fair line the full length of the canoe.  Now, tack a spruce batten (approximately ¼” x ¾” x 16’) at the reference points to create a fair reference line.

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As mentioned before, every second rib will be repaired.  Unless you have hundreds of 3” spring clamps, it will take a week or two to splice new wood into every rib.  Once done, mark each new rib-top 5” above the reference line and cut every rib to re-create the original sheer-line of the canoe.

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Reattach the original planking and replace damaged planking with new cedar.  Stain the new wood to match wood in the rest of the canoe.

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The finished product is strong and solid.  Many of the rib-tops repairs extend less than an inch below the inwales, so it was difficult to realize that they had been replaced.

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All of this (and much more) is described in my book – This Old Canoe: How To Restore Your Wood Canvas Canoe.  If you live in Canada, the book will be available in about a week.  Click here to order the book.  If you live in the USA, the book is available now.  Click here to order the book.

by Mike Elliott, Kettle River Canoes

Unless you live in British Columbia, you have probably never heard of Bill Greenwood or Greenwood canoes.  And if you want to start a fight amongst wood-canvas canoe enthusiasts, just ask them to name the prettiest canoes ever made.  In Maine, you would hear names like Morris, Gerrish and White.  In Ontario, Peterborough canoes are top of the list.  But in British Columbia, people speak about Greenwood canoes in hushed tones and bow down to Bill Greenwood’s exquisite water craft.

There is some information available about Bill or his canoes.  There is a website devoted to Bill, his company and his family.  Checkout greenwoodcanoecompany.com

The information presented here has been collected from people who bought their canoes directly from the builder at his shop as well as some antecdotes from Jim Kinzell, who worked with Bill as an apprentice from 1969 to 1975.  Dave Lanthier from Kamloops gave me a small biography produced in 1972 as an assignment for a physical education course at a college.  My information is incomplete.  That said, Bill Greenwood and Greenwood Canoes deserve recognition in the world of wood-canvas canoes.

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As I understand it, Bill was born in 1912 and was an active outdoorsman who loved hiking, skiing, canoeing — just about anything that got him outside.  Then, he suffered a stroke while hiking in the mountains.  He was 24 years old.  As part of his rehabilitation, Bill decided to learn how to build canoes. He boarded a train in Vancouver, BC and made his way to Old Town, Maine.  He hung around the Old Town Canoe Company shop and absorbed everything he could about canoe building until they realized what he was doing and kicked “the spy” out.  Bill spent some time at other canoe factories including the Peterborough Canoe Company in Ontario before returning to British Columbia and setting up Greenwood Water Craft Company.  The shop location changed a number of times over the years until he estabished a large shop complex on Mitchell Island in Richmond, BC in the late 1960′s.

Not surprisingly, the lines and details of Greenwood Canoes borrow heavily from the “Maine Guide” canoes of Old Town and other builders in Maine.  They all sport wide, flat bottoms and have very little rocker.  The stem profile is heavily recurved and the hulls all contain a lot of tumblehome.  Bill’s 16’ (4.9 meter) canoes did not have a centre thwart, but instead had both bow- and stern-quarter thwarts as was typical of Maine Guide canoes.  Many of the canoes had bottoms reinforced with half-ribs between the main ribs to create a strong comfortable floor.  And Bill absolutely refused to make a canoe without a keel.  In fact, one of my clients asked Bill to leave the keel off the canoe he was ordering.  Apparently, Bill said something like, “My canoes have keels.”  When my client told Bill that many Chestnut Canoes paddled very well without a keel, Bill said, “If you want a Chestnut Canoe, then buy a Chestnut Canoe.”  My client told me that story while I was preparing the restoration work order on his 17’ (5.2 meter) Chestnut Cruiser.

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The workmanship in Greenwood canoes is outstanding.  He used “aircraft quality” Sitka Spruce for the double-tapered ribs.  The wide planking was made of old-growth Western Red Cedar (edge grain).  The stems (and slat seats) were White Oak while the rest of the canoe was trimmed in Philippine Mahogany (Luan).  All of the woodwork was flawless – tight planking, graceful lines and elegant detailing.  The one drawback in many Greenwood canoes built in the early 1970’s is the fact that he used steel screws to attach the mahogany outwales.  Apparently, Bill was feuding with one of his suppliers.  He wanted 1.5” (37 mm) #8 brass wood screws in lots of 1,000 while the supplier insisted on selling lots of 10,000.  Bill ordered steel screws from another supplier in lots of 1,000.  I have had to cut that beautiful mahogany into hundreds of tiny pieces because the steel screws had corroded to the point of being fused into the wood.  I’m sure Bill thought he had won the war with his supplier, but it has made the restorer’s job much more difficult 40 years later.

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The quality of the workmanship is all the more impressive when you consider the fact that Bill worked almost entirely with one hand.  The stroke affected his left side. Consequently, his left hand was crippled to the point that he had limited use of it.  My understanding is that he used jigs for almost every step of production.  That and a few very good assistants in the shop (including George Fletcher and Jim Kinzell) made it all work beautifully.

Greenwood Canoes came in lengths from 15’ (4.6 meter) to 18’ (5.5 meter).  He had two basic models – the Pleasure Model (12” – 30 cm – deep) and the large volume Prospector Model (14” – 36 cm – deep).  He built a full range of lengths in both models (as well as a 12′ car-top boat) until 1970.  One client of mine has a beautiful home in North Vancouver overlooking the entire Lower Mainland.  He had ordered a canoe from Bill in 1970 and was expecting a call any day to say that the canoe was ready.  Then, he heard a news report of a large fire on Mitchell Island in Richmond.  He looked out over the valley from his home and saw a big cloud of smoke.  The Greenwood Water Craft shop was engulfed in flames.  The next day, my client went to the site and saw Bill kicking through the ashes that used to be his shop.  He said, “I only had time to grab two canoes – The yellow one over there — that’s yours.”

Bill rebuilt the business with a limited number of moulds and continued building canoes until he sold the business in 1975.  According to Doug Ingram of Red River Canoe and Paddle, the moulds ended up in Cranberry Portage (a small community in Northern Manitoba east of Flin Flon).  Apparently, they were never used again and are now in very poor condition.  Bill died in 1979.  His contribution to the world of wood-canvas canoes is significant here in British Columbia.  People bow their heads in reverence to these stunning works of art.

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For more information on Greenwood canoes – including a guide to the restoration of these canoes (plans and dimensions of the component parts) – order a signed copy of This Old Canoe: How to Restore Your Wood-Canvas Canoe.  The book will be available in April 2016.  Send an email request to artisan@canoeshop.ca

by Mike Elliott, Kettle River Canoes

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This Old Canoe: How To Restore Your Wood-Canvas Canoe will be launched next month – April 2016.  This will be celebrated in a variety of ways.  There will be reviews posted online by prominent bloggers.  There will also be reviews published in a couple of print magazines.  I will be interviewed on CBC Radio.  However, the thing I am looking forward to the most is my book tour.  It will begin in April and continue through the summer into the fall.

Each event will feature a presentation where I will be talking about wooden canoes and their influence on our lives.

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The first presentation is titled O Ca-na-noe: Canoes and the role they play in the development of the Canadian identity.  It examines the role of canoes in Canadian history and the influence canoes have had on the way Canadians operate in the world.  It also looks at the influence of the canoe on Canadian art as well as the canoe as part of the family.

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The second presentation is called Canoe Connections: Wooden Canoes and their people — the ties that bind them and the restorations that bring them back together again.  In this talk, I discuss the way I approach the business of canoe restoration.  I focus on stories about the importance of wooden canoes in the lives of individuals, families and communities.

Here is a schedule of events so far.

April 15 in Penticton, BC at the Penticton Library – 12 noon presenting O Ca-na-noe

April 16 in Penticton, BC at the Penticton Museum – 2:00 pm presenting Canoe Connections

April 23 in Grand Forks, BC at the Grand Forks Library – 2:00 pm presenting Canoe Connections

April 30 in Richmond, BC at the Britannia Shipyards National Historic Site – 2:00 pm presenting Canoe Connections

May 14 in Shelton, WA at Camp Bishop for the Northwest Chapter of the Wooden Canoe Heritage Association (WCHA) Spring Meet – 9:30 am presenting Canoe Connections

June 16 in Peterborough, ON at the Canadian Canoe Museum – 6:00 pm presenting Canoe Connections

June 17 in Parry Sound, ON at the White Squall Paddling Centre – 7:00 pm presenting O Ca-na-noe

June 18 in Midland, ON at the Wye Marsh Wildlife Centre – 7:30 pm presenting O Ca-na-noe

July 12-17 in Paul Smiths, NY at Paul Smith’s College for the 2016 WCHA Assembly – presenting Canoe Connections

July 22 in Spooner, WI at the Wisconsin Canoe Heritage Museum – Time to be determined presenting Canoe Connections

September 15-18 in Manning Provincial Park, BC at Lightning Lakes Campground for the Northwest Chapter WCHA Fall Meet – presenting O Ca-na-noe

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If you would like me to give a presentation in your area, approach your local library, museum or canoe association and make arrangements.  Then, contact me to work the event into my travel plans.  I can prepare a poster for the event and send a PDF file for you to print and display.  Send me an email artisan@canoeshop.ca

 

by Mike Elliott, Kettle River Canoes

photo from “Tales from Misery Ridge: One Man’s Adventures in the Great Outdoors” by Paul J. Fournier. (Island Port Press, 2011)

photo from “Tales from Misery Ridge: One Man’s Adventures in the Great Outdoors” by Paul J. Fournier. (Island Port Press, 2011)

About 130 years ago, fishing guides on the east coast of North America (most notably in Maine, New Brunswick and Quebec) started building wood-canvas canoes that they could use in order to take their clients up and down the shallow, rapid salmon rivers in the region. They used the local birch bark canoes as templates.  The guides would be standing up all day in the canoe as they poled it upstream and down or held the canoe in place while the client fished for salmon.  The canoes needed to be stable and rugged with a strong, comfortable bottom.  They designed canoes that had wide, flat bottoms which made them stable with a very shallow draft.  To strengthen the hull against the inevitable encounters with rocks, they did one of two things:

Chestnut Ogilvy close ribbed

a) Build the canoe with lots of ribs spaced very close together (0.5″ to 0.75″ – 13 mm to 19 mm apart).

Canoe with half-ribs

b) Space the ribs normally (1.5″ to 2.0″ – 38 mm to 50 mm apart) and insert extra ribs between them that extended across the bottom of the canoe. These “half-ribs” created a strong, comfortable floor in the canoe.

Sometimes a client brings their canoe into my shop for a restoration and asks me to insert half ribs into their canoe in order to create a stronger bottom in the canoe. Unfortunately, if you simply pressed shorter ribs into the bottom of the canoe between the regular ribs, the hull would become misshapen – especially if the bottom was not entirely flat.  Therefore, retro-fitting half-ribs into a wood canvas canoe is done in the following way.  Note, that this is done while the old canvas is off – before a new canvas is stretched on.

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1) Cut and shape the new rib material from clear, straight-grained cedar. The ribs are about 1″ (25 mm) wide and the same thickness as the original ribs in the canoe.  The edges are chamfered about 10°.  Sand the top edges of the ribs lightly to round them off a little.  Soak the ribs for  48 to 72 hours.  Then, steam them for about 50 to 60 minutes and bend them over the outside of the hull between the regular ribs.  Allow the new ribs to dry for at least 48 hours.  Just as when creating an exact replica for a broken rib in the canoe, the half-ribs are bent in a location so that the shape of the rib on the outside of the hull is the same as the dimensions required on the inside.  The taper of the hull is such that the inside dimensions are achieved by bending the rib one station closer to the near-end of the canoe.  Precision is not as critical for half-ribs as would normally be required since the ribs will not be curving around the chine of the canoe.  Use a pencil to mark the centre-line on each new rib.

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2) Remove the new ribs from the outside of the canoe and place them in the required positions between the regular ribs. Make sure the centre-line on each new rib is lined up with the centre-line of the canoe.  Hold the new ribs in place with spring clamps on the inwales.

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3) The length of each half-rib will vary so that they match the taper of the hull dimensions. This is actual length of each rib is entirely up to you.  Use a straight-edge to help determine the length of each rib and use a pencil to mark both ends of each rib.

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4) One at a time, cut each half-rib to length.

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5) Use a random-orbital sander and 80-grit paper to chamfer the ends of the rib.

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6) Place the half-fib back in place and secure it with one tack about halfway between the centre-line and one end of the rib. Make sure the rib is centered between two original ribs.  Repeat this procedure on the other side of the rib making sure that the half-rib is centered between the original ribs.  This can be done by one person, but is much easier when one person holds the half-rib and clinching iron while a second person drives the tacks with a cobbler’s hammer.

7) Once the half-rib is centered and straight, secure it with a full complement of tacks.

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8) Repeat steps 4 to 7 for each half-rib in turn.

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For a complete guide to wood-canvas canoe restoration, This Old Canoe: How To Restore Your Wood-Canvas Canoe will be launched in April 2016.  To reserve a signed copy, send an email request to Mike Elliott:  artisan@canoeshop.ca

by Mike Elliott, Kettle River Canoes

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Here are some sample pages from This Old Canoe: How To Restore Your Wood-Canvas Canoe.  This PDF contains the Table of Contents, Preface, Introduction and Chapter 1.  If you would like to reserve a signed copy of the book, send an email request to artisan@canoeshop.ca

The book will be launched in April 2016.

This Old Canoe sample