primitive – Bushcraft Days

January 5, 2016

Bows and Atlatls – My Set

It has been 8 or 9 years now since I started making my own bows and Atlatls. In that time I have enjoyed making a number of different types and have brought them all together in this post. I am no expert in making them however I do like to carve them.

If you want to know how to make any of these tools just click on the title for each section to see a detailed How To…. guide on making them. This post will concentrate on my thoughts on them through my own personal use and that of my students.

Father & Son Bow (Penobscot or Wabanaki bow)

I have probably made at least a dozen of these quick bows and taught many students to make them since 2009. They take no more than a couple of hours to make and are quite powerful for green wood bows. I normally use two hazel or ash rods taped together to make them.

I learnt how to make them after watching a You Tube video by Mark Emery (Sussex Woodsman) who is an expert woodsman.

The bow themselves are very light in terms of poundage (20 to 30lbs in draw weight) but on a high arc I can generally get them to shoot an arrow 60 to 70 metres. I usually shoot them on short ranges of less than 20 metres in the woods.

These have proven a massive hit at the Bushcraft UK Bushmoot and there has been a class run on them since 2009 with folks of all ages making them. I particularly like to see a family making one and then coming down to the range of an evening to shoot. I still have ones I made all these years ago and they still shoot well.

Ash Flatbow

This was the very first bow I made back in 2008 on a Bushcraft Instructors course with John Rhyder of Woodcraft School.

As a group we felled an ash tree , split it into staves and carved our own bows. We did this over two weekends with a month in-between so allowing the stave to season before the tillering process. The ash flatbow has to be made wider than it is deeper due to its deep rings however if it is tillered well it will still shoot fast.

This bow comes in at about 40 lbs in draw weight and has a tendency to ‘twat’ the inside of your forearm so a arm guard is a must.

I give this bow mostly to adults to shoot because of its draw weight but with a good eye and a steady hand she can be very accurate. I started shooting right handed as that is how I was taught to shoot a rifle many years ago however my friend Charlie Brookes suggested one day to try left handed shooting and suddenly I started to hit the target. I am left handed and left eye dominant but the muscle memory from using a rifle made it difficult to shoot left handed at first – however with a lot of practice that has gone, so I am now happy to shoot with either hand.

The Bhutanese Bow

I made this bow about four years ago at the BCUK Bushmoot and was taught by Wayne Jones (Forest Knights). It is similar to the ash bow in that it is wider than it is deeper however it is made out of two pieces of bamboo (the HowTo…. goes into detail of why two pieces are used).

Traditionally the two pieces would be joined together with wooden pins and strapping but on the day all we had was tape. In the courses Wayne runs nowadays he uses the pins and strapping.

It is quite a light bow (about 30lbs in draw weight) however it has the advantage of being made very quickly (a couple of hours in competent hands).

Another unusual feature of this bow is that the hard outer shell of the bamboo becomes the Belly (the part of the bow facing you when shooting) of the bow and the softer inner part of the bamboo becomes the Back of the bow (the part of the bow facing away from you when shooting). I am told that this is to do with the characteristics of the bamboo – because it is a grass technically and not wood.

The Holmegaard Bow

This is my favourite bow. I carved it while doing a Primitive Technology course at Woodcraft School.

I carved the bow based on the dimensions of the ones found in the peat bogs at Holmegaard in Denmark. The bow has the lower parts of its limbs shaped wider than they are deeper much like the ash flatbow. The upper parts of the limbs are more ‘D’ shaped so making them stiffer but thinner than the lower parts of the limbs.

This unusual shape works well with ash as it is not a particularly strong wood for thin bows. The wide lower limbs give it strength while the thinner and stiffer ‘D’sectioned tips allow the limbs to shoot forward at a very fast speed so making it an excellent hunting bow where you get fairly close to your prey..

I also decided to make the nocks out of rawhide and spruce pitch rather than carving them in. I did this as some Holmegaard bows have been found with no nocks carved into them. Whether they had bone nocks attached or rawhide as I experimented with will probably never be known but they work well.

This bow is a favourite amongst the children I teach as they can draw it easy. Personally I just love the shape of the bow and it shoots well for me,

Atlatls

I have written a number of posts on these little devices. When asked about them by children I teach I liken them to these modern ball throwing devices dog walkers use nowadays. So if you imagine replacing the ball with a spear (technically called a dart) you will get the idea.

The set is made up of two parts – the Atlatl (the throwing device) as shown below and a dart (seen above). My post on the Atlatl goes into detail on the history of them and the different designs you can find.

The ones below are very simple ones. The left hand one has been carved from a hazel rod and the one on the right is from a piece of yew with an antler tip attached by sinew and spruce pitch.

Lovelock Cave Atlatl

I have tried to make a number of different Atlatls over the years and a favourite of mine is called the Lovelock Cave Atlatl (named after where it was found in the USA). I came across some drawings of this Atlatl on the web and set about making one.

It was thought to have had a bone or wooden point at the end to attach the dart to it but I experimented with just cordage. This seems to work quite well however there is no archaeological records that this adaptation was ever used.

One Stick Atlatl

I set myself a challenge a while back to produce a split stick Atlatl from just one piece of willow and limited myself to just my primitive tools.

I scraped and carved the wood with my flint knife and used the bark as cordage. It turned out to be quite a nifty little Atlatl in the end.

Atlatl with a Rest

I carved this Atlatl after reading about hunters in Arctic environments using this type of Atlatl. The rest allows the hunter to wear a glove while waiting to shoot the dart. The dart has a piece of cordage wrapped tightly around it that is pushed up against the rest so fixing the dart in place. With a quick flick the dart is away with no ill effect on its flight.

Photo-22-01-2014-18-14-18 — Atlatl with a Rest

Thats it for me on bows and Atlatls (unless I make some more).

Cheers

George

March 12, 2014September 16, 2014

How To…. Make a Flint-Tipped Arrow

I put this How To…. together to show how to construct a couple of primitive arrows. I used mainly primitive tools with the exception of a few modern touches: the occasional use of a steel knife, adding false sinew when I ran out of real sinew, some sandpaper, a copper-tipped flaker and bleached feathers.

Preparing the arrow shafts

I made these arrows while on the Woodcraft School Primitive Technology course in 2009. John Rhyder the course instructor supplied us with pre-cut branches from a spindle (Euonynus europaeus) tree, which has traditionally been used for the manufacture of arrows as it is a hard wood and takes a point well. Another option that was available to us was hazel (Corylus avillana) as there was some on site. I chose to use spindle as I had never used it before to make arrows.

Photo 10-03-2014 09 47 41 — Flint-tipped arrows

I used the back of my knife to scrape the bark off the wood but this would traditionally have been done with a piece of sharp flint or other such stone. For safety I kept the knife still and pulled the green stick backwards, scraping bark off with the back of the blade. I like this method as the blade stays still making it very safe. I then roughly sanded each of the branches with sandpaper. This could have been completed traditionally with either a handful of sand or a soft rock such as sandstone.

I then heated the branches over an open fire. I was careful not to scorch the wood as this changes its properties and makes it brittle. The trick is to slowly turn the branch in a circular fashion, heating evenly all around the section of wood that needs straightened. This in effect creates steam in the wood as the sap heats up and so allows you to slowly straighten the arrow (this method works best on green wood). To straighten the bumps in the wood you need to hold it in position (as straight as possible) until it cools and sets into its new shape.

Photo 09-03-2014 14 23 38 — Heating and straightening

Making a Self Nock

Next I needed to make the nock for the string. I cut two small grooves (opposite each other) at the thin end of each shaft. Then about a centimeter down the shaft (showed here in red) I rolled the knife edge to mark a thin line at 90 degrees to the first grooves (too fine to see in the picture).

I then placed the edge of the knife into one of the larger grooves to split the wood down to the lower line. The small cut in the wood at the lower line helps stop the split running off too far. I then repeated the procedure on the opposite groove.

I wiggled the centre section back and forth until it started to break away from the main arrow shaft. In the bottom picture you can see the nock starting to appear.

The resulting peg finally pops out after a lot of wiggling about. Freejutube has an excellent video on making a primitive nock using a slightly different method – Arrow snap self-nock – with flint and bone tools

Preparing the Flights

John Ryder provided feathers for us to use. Due to health and safety requirements John had to supply his students with feathers that had been washed: traditionally of course the remnants of bird kills would have been kept and the feathers used for this job. If the feathers are from the same wing they make excellent flights, making your arrows more accurate.

Photo 09-03-2014 16 15 39 — The Flights to be

I used my knife tip to start the split of the feathers to create the flights – a sharp piece of flint would have worked just as well. After the initial split had been made I used my fingers to split the rest of the feather. I tried to be very careful here to keep the split in the centre of the spine of the feather all the way to the end. It gets a bit tricky as it tapers out near the end.

I split and trimmed the feathers leaving enough of the spine at each end for wrapping purposes.

Photo 09-03-2014 16 17 03 — Splitting out the flights

Making Sinew Cordage

To wrap the feathers onto the shaft I used deer sinew. This needs to be pounded gently between two stones until all the sinew fibres separate.

This takes time but it is worth it to see all the strands of sinew start to appear.

Photo 09-03-2014 16 18 29 — Breaking down the sinew

Here you can see the fibres starting to really fall apart. There wasn’t enough real sinew for everyone so I had to supplement it with some false sinew: dental floss is another possible alternative.

I rolled the sinew strands to make them stronger and wet each strand with saliva. This allows the sinew to bind to the shaft as the fats in it act like a glue when wet. On the right you can see some sinew that is ready to use as wrapping.

Photo 09-03-2014 16 21 07 — Finished sinew

Attaching the Flights

To aid in the process of attaching the flights to the shaft I tried out another type of glue made by crushing bluebell leaves to a pulp between my fingers. The resulting gloop was supposed to act as a first fixing to help keep the flights in place before wrapping; it turned out to be a little bit tacky but nowhere near strong enough to act as a glue. In the bottom picture you can just make out the shaded area on the shaft where the bluebell ‘glue’ was placed.

Photo 10-03-2014 08 52 35 — Bluebell glue

In the end I just used sinew to hold the flights in place. You can see the bluebell stain on the shaft in this picture.

Photo 10-03-2014 08 54 18 — First tie off

I then wrapped the flights at the top with sinew (bottom left) and then to finish this stage I wrapped the body of the flights with more sinew (bottom right).

I also wrapped sinew just below the nocks on each arrow to strengthen them. You can see this clearly in the arrow on the right. If I hadn’t reinforced the nocks with sinew they could easily have split with the forces of the bow string as soon as I shot them.

Photo 10-03-2014 08 54 54 — Tied off with sinew

Creating and Using Pitch

Once the sinew was attached to each arrow I decided to put together some pine pitch. This was to cover the sinew to protect it from fraying and also to waterproof it. The name pine pitch is a bit misleading as I used spruce resin, since that was what was readily available in the area. After collecting the resin that had oozed from spruce trees (the tree uses the resin to seal any damaged areas on its bark) I mixed it with fine charcoal (to give it strength) and beeswax (to give it flexibility).

I used the small rock (left hand picture) to grind the charcoal and a large flat rock (top right) as a preparation table. I heated the square rock in the fire to help with melting and mixing everything together. The sticks were used as mixers and to store the resin (see below). The hot rock I used had been heated before many times so there was no risk of it exploding (which can happen if they contain trapped air).

On the heated rock (bottom right) I heated the first lump of resin, and as it melted I scraped off any debris such as bark.

Photo 10-03-2014 08 59 55 — Pine Pitch Prep

I kept adding more and more resin, charcoal and beeswax (I just added charcoal until the mixture thickened slightly and added beeswax in little lumps) until it had all melted. The rock was super-heated so I had to take great care not to burn myself.

The rock had a slight indentation to collect the melted resin. It doesn’t look like there is much resin here but it was enough for what I had to do.

Photo 10-03-2014 09 09 19 — Hot Pine Pitch

Using two sticks, one to scrape the pine pitch up and one to hold the cooling pitch, I coated the holding stick with the pitch mixture then submerged it in a pot of cold water to harden it. I would then repeat the process adding more and more layers. Using cold water speeded up the whole process.

Here you can see the pine pitch building up on the stick. This primitive method does not give you very fine pitch as you would get using a modern method but it does work surprisingly well

Photo 10-03-2014 09 10 09 — Creating a Pine Pitch Stick

I made up two pine pitch sticks in the end. The stick on the far left has been charred and can be re-ignited quickly by dipping it into a fire to create heat to melt the pine pitch again to coat the sinew on the arrows. This protects the sinew and gives the arrow a nice finish

Photo 10-03-2014 09 10 39 — Prepping to coat the sinew

After re-lighting the charred stick I used it to to re-melt the tip of a pitch stick (top picture). I found it fairly easy to drip the melting pitch onto the area of sinew on the arrow I wanted to cover (bottom picture).

Photo 10-03-2014 09 11 33 — Heat and coat

As I dripped the pine pitch onto the sinew I wet my fingers so that I could smooth the resin out and spread around evenly (John the course instructor is in the left hand picture demonstrating this). If you do not wet your fingers the hot pitch could burn you and also it will stick to your fingers (out in the woods without hot running water this is a pain to clean up).

Photo 10-03-2014 09 14 05 — Re-heat and smooth out

Knapping the Arrow Tips

The next stage in the process was to make some arrow tips. I had collected up some shards of flint left over from the course we had with John Lord. Thankfully there was a mass of leftover flint for me to look through and choose from. All of the pieces shown below I thought could be made into decent arrow tips or barbs with the minimum of effort.

Photo 10-03-2014 09 16 00 — Possible points

The next stage was to pressure flake the pieces with a copper tipped pressure flaker and an antler tine (I wanted to try both tools) into usable arrow heads. The glasses were worn to protect my eyes from flying pieces of flint and the glove protected me against cuts. I placed under the flint a strip of leather to give support and further protect my hand.

The picture on the right did not turn out very clear (a smear on the lens of my camera) but I soon had an arrowhead ready to insert into my arrow shaft. Using the same method as I used to make the knock, I created a groove at the arrow tip.

Photo 10-03-2014 09 23 34 — A bit of knapping

I re-worked the other pieces and after a little touching up these other flint points were ready to be used.

Photo 10-03-2014 09 26 42 — The rest of the finished points

Attaching the Tips

I then coated the arrowhead with some pine pitch and placed it into the groove on the shaft. I then coated the tip of the shaft in more pitch and wrapped sinew round it to keep the arrowhead secure.

Update 13/03/2014 – I have been advised by one of the Primitive Arts Society members David Colter that it is very important to securely bind the shaft immediately below the point for a length of about a centimetre to prevent it from splitting on impact and failing to drive the point into the target. There is a very good experiment showing this in the Traditional Bowyers Bible Vol 3. I did not bind it for a full centimeter in my example (thanks for the update David).

Photo 10-03-2014 09 24 33 — Attaching points

I finally added more pitch to cover the sinew to waterproof it all.

Photo 10-03-2014 14 31 40 — Well attached

Based on archaeological evidence I decided to add a barb to the arrow. I firstly scraped a groove along the arrow shaft then put some pine pitch into it.

I then placed a long thin piece of sharp flint onto this pitch and coated more around the base of it (bottom picture) The barb is designed to cause maximum damage to the prey animal as the arrow enters its body.

Photo 10-03-2014 14 32 40 — Attaching a barb

I finished two arrows in this project. The one I completed for this tutorial is the one on the right.

Using similar techniques I was able to produce an Atl atl set as well.

Photo 10-03-2014 14 35 52 — Atlatl extras

I have never shot these arrows at a modern target as I don’t want to break off the tips but I did shoot them into some bales of loose hay and was very impressed with their accuracy.

This was a great project as it introduced me to some primitive but very effective techniques in arrow making.

Cheers

George

January 12, 2014September 16, 2014

How To…. Primitive Skills – Bone Knife Bark Sheath

This How To…. lays out some simple steps to make a bark sheath for a knife. I have also used this method to make a quiver for my arrows and with a sightly different method you can easily make containers.

Photo 11-01-2014 23 44 34 — Sweet Chestnut Bark Sheath

I took these pictures in 2009 when I was on the Woodcraft School Primitive Technology course. The sheath was made using only primitive tools as required by the course. To do this I made for myself a flint knife, flint adze, some discoidal flint knives and also used the bone bodkin that I showed you how to make in the previous post. For more modern methods I would say you could do this job with a small saw and a small knife.

I started the project by selecting a suitable Sweet Chestnut (Castanea sativa) limb from a coppice stool to take down. After checking the tops for any dead wood I started to clear away the undergrowth using some flint. Clearing the undergrowth away ensured a safe working area around the limb. I used a large sharp piece of flint for this. Also I made sure I had clear exit routes around the limb I could use when it came down.

Photo 11-01-2014 23 28 11 — Trimming and starting the cut

I had created for the job a Flint Adze. This is a piece of worked flint attached to a handle with rawhide. Unlike traditional tree felling where a wedge is created and then a back cut made I am made a rosette cut all around the tree using short chopping motions. You can see the rosette cut appearing in these pictures. The small branch you can see in the foreground got in my way so I cut this down.

Photo 11-01-2014 23 28 26 — The Rosette cut

You can see that the Adze creates tears in the wood but is very effective in cutting into it. As I got into the heartwood I had to support the limb as I did not want it to fall uncontrollably and eventually I was able to let the limb to fall under control. I did not need to back out of the coppice stool as the limb was light enough to control. Had it been any heavier, my cleared exit routes would have come into play.

Traditionally the stump would have been left like this. I however sawed the stump cleanly at the base. If a stump is cleanly cut (with a little angle) then it has less chance of getting infected and will eventually have new shoots grow out of it.

Photo 11-01-2014 23 28 40 — A wooden flower

Using the Adze in a safe manner away from my body I trimmed off all the brash from the limb.

Photo 11-01-2014 23 29 02 — Trimming the limb

Using the flint that I had cleared the undergrowth with I scraped off all the outer bark of the limb as this is too brittle to work with. All I wanted to use was the inner bark. My friend Paul held the limb to secure it: this speeded up the process as I could use both hands.

I scored a line down the limb through the inner bark with my flint and also scored a line around the limb at the top and the bottom. Then, using a small piece of wood I’d found on the ground, I peeled away the inner bark from the limb. This was done in April so the sap was rising, making the debarking of the limb very easy.

Photo 11-01-2014 23 29 38 — Scraping and de-barking

The tools I used for the job:

1) Adze

2) Flint

3) Piece of wood

I cut a further piece of bark off the limb as well.

Photo 11-01-2014 23 29 55 — Fresh bark ready for drying

I left the bark to dry out overnight and then re-wet it the next day before cutting it into strips. If you use the bark straightaway after harvesting it, anything you weave will become loose as the bark will shrink slightly as it dries. This shrinkage does not happen again if you let it dry out first then just re-wet it to make it supple enough to work.

To cut the strips I had a flint knife prepared for this.

Photo 11-01-2014 23 30 07 — Re-soaked pliable bark

I cut the strips by eye only but I am sure you could rig up a worktop to cut consistently wide strips. The good strips are on the right and the offcuts on the left.

With practice you will be able to gauge how many strips you’ll need for your size of sheath. This was a small sheath so I estimated 6 strips.

Photo 11-01-2014 23 30 33 — Chosen strips

Firstly fold all your strips in half with the inner part of the bark showing as it is the smoother side.

Photo 11-01-2014 23 30 50 — Fold the strips in half

I have documented the first 12 steps of the weave in the next 3 pictures. Each numbered bullet point relates to a numbered picture below.

1) Lock the right hand strip onto the top half of the left hand strip.
2) Lock the next right hand strip onto the bottom half of the left hand strip.
3) Lock the third right hand strip onto the top half of the left hand strip.
4) Lock the second left hand strip onto the top of the first right hand strip and weave through the other strips.

5) Lock the third left hand strip onto the bottom of the first right hand strip and weave it through the other strips. The ‘point’ of the sheath is now complete.
6) Fold back the top of the first left hand strip.
7) Fold the bottom of the first left hand strip diagonally over the other left hand strips.
8) Then flip back up the top of the first left hand strip.

Photo 12-01-2014 09 45 54 (HDR) (1) — Weave 2

9) Lock the next right hand strip onto the bottom half of the left hand strip.
10) Flip the whole sheath over. There should be a single strip on the right now.
11) Now fold the bottom right strip diagonally over the other right hand strips and weave it in.
12) Starting again on the left hand side keep repeating the whole process.

Soon your sheath will take shape.

Photo 11-01-2014 23 43 41 — Keep weaving

Keep going with the weave and stop when you have enough to securely hold whatever will be kept in it.

Photo 11-01-2014 23 43 54 — Ready to close off

The top can seem a little bit tricky at first but all you need to do is turn the ends back on themselves and weave them into the sheath. Just tuck each end in as neatly as you can: it’s tricky as each end will be different, you might need to experiment.

When you have closed the top off, trim all the ends so that you cannot see where the weave ends.

Photo 11-01-2014 23 44 21 — Trimming the excess

All the ends were trimmed so that the ends were hidden by the weave. The sheath is ready for a dangler strap now.

I used some raw hide I had left over from making a bag. I wet it to make it more pliable and then rolled it in my hand.

Photo 11-01-2014 23 44 52 (HDR) — Re-soaked rawhide

The bodkin I had made earlier came in handy here to make a gap in the weave. I then used a small stick to push the rawhide into the gap made by the bodkin.

Photo 11-01-2014 23 45 03 — Bodkin in use

Attach it as you like and it is ready. I think I used a simple Larks Foot knot here.

Photo 11-01-2014 23 45 14 — Dangler attached

This sheath completed my primitive belt order (the smallest one on the right).

Photo 11-01-2014 23 45 25 — My Primitive belt order

This type of weaving can make some very useful items. I have been using the quiver on a regular basis since 2008 and it shows no sign of wear and tear.

photo (1) — Let your imagination create what you want

A How To…. on making the bone knife can be found here – Primitive Skills – Bone Knife/Bodkin.

Good luck and enjoy experimenting.

George