Posts filed under tools

Commonly Axed Question: Charring Axe Handles, Why I Don't Do It

I’m asked a lot if I char the surface of my axe handles, have I tried it, do I recommend it, and so on. I’m going to tell you why I don’t, and am not likely to start. We’ll be looking at this problem largely through the lenses of primitive technology, bows and wood failure under tension, so there are some interesting general lessons to be dabbled in.

In spite of the very clickable, emphatic video thumbnail, even though I don’t practice it I don’t have a strong yay or nay opinion on whether anyone does or does not char their axe handles. People do it a lot and seem to get away with it, and it’s not my axe. I’m just sharing why I don’t do it. In searching for Youtube videos in preparation for this segment, I didn’t really see any dissent or contrary views, though I’m sure they must exist somewhere. It has become a popular and seemingly common practice lately.

I think of carbonized wood as compromised wood. Charring wood makes it harder up to a point, but also more brittle. I have done a lot of what is often called primitive technology, essentially stone age living skills. A very fundamental skill in primitive technology is heating and bending wood. Arrow and spear shafts, bows, hoops and other items sometimes need straightening, or curving. Many applications require the heating of dry wood, v.s. steaming the wood or heating green. If someone doesn’t teach you otherwise, you are likely to find out pretty fast, that if you scorch the wood of an arrow shaft, not even black, but just toasted brown, it becomes brittle and is much more likely to break when bent for straightening. It’s easy to do, I’ve done it many times, it’s a thing.

Let’s look at bows, because they are repeatedly put under a great deal of stress, and provide a perfect model of wood under extreme tension. Bows in fact often operate near the edge of failure.

A bow is made flexible enough to bend a lot. In order for the bow to do it’s work, and not break, the wood, and the design, have to be adequately RESILIENT to the stresses a bow comes under. Strength is a bit of a sloppy concept to use when looking at this problem. Strength is an important concept in resilience, but what kind of strength? resisting what forces? and in what context? Resilience is the total ability to withstand stress, though it is still dependent on what type of stress. I’ve discussed the importance of resilience in regard to axe handles in another post.

Some bows are curved back at the ends, which is called recurving. Usually heat is used to make the wood flexible. The heat can be either dry or wet, and often steaming is used. If you were to survey the literature, I’m pretty sure you’d find that if there is a standard recommendation, it is to avoid scorching bows when heating them to bend. Scorched wood is compromised, brittle wood. I think it’s very unlikely that you will find bowyers recommending that you scorch the surface of a bow at any time, and actually just the opposite.

Primitive technologist Jay Sliwa heating and bending a yew wood bow in my front yard. He probably spent over an hour bending both ends of this bow, because it takes time to get the temperature high enough, and also deep enough, without scorching the…

Primitive technologist Jay Sliwa heating and bending a yew wood bow in my front yard. He probably spent over an hour bending both ends of this bow, because it takes time to get the temperature high enough, and also deep enough, without scorching the wood. Hot wood, even dry, will bend more easily. If cooled in the new shape, it will usually stay more or less that way.

Scorching and burning IS actually used in primitive technology though, to shape and harden wood. The common uses are for burning the ends of sticks to a pointed shape when making spears and digging sticks. This practice changes the character of the wood, making it harder, in order to resist the stresses of things like digging in the dirt, and that is a form of resilience right? A fire hardened digging stick tip is resilient to the stress of hitting dirt and rocks. It is more likely to retain it’s shape and will not dent as easily or wear away as quickly. Resisting the stress of digging is not resilience to bending though, it’s a resilience to impact, to denting and encountering other hard objects like rocks, dirt and animal ribs. These are the stresses encountered by a spear or digging stick point.

This digging stick tip is shaped and hardened by fire.  Great for impact and abrasion resistance, not so much for flexibility.

This digging stick tip is shaped and hardened by fire. Great for impact and abrasion resistance, not so much for flexibility.

That begs the question, might charring harden the wood of an axe handle to resist impacts that damage the wood by crushing, such as contacting wood on wood when splitting and limbing? I’m much more inclined to think that charring will increase the likelihood of wood tension failures, than that it will have any significant effect on impact resistance. There is also another solution to that problem, which is wraps, braces and collars.

Lets go back to bows again. When the bow is pulled, the part of the bow facing the archer, the belly, is compressed. The belly fibers are smashed together and essentially made shorter if that is possible. The wood fibers on the back are stretched out and put under tension like pulling a thread tight.

I think in both axe handles and bows, breakage is much more likely than not, to initiate at a single point of weakness, in wood that is under tension. As the bow is pulled, tension stress builds and the further toward the outside back of the bow the fibers are, the more they are stretched. The fibers at the very back of the bow are not only stretched the most, but they have also been violated in most cases, by being cut through to shape the limbs. If there is a weak point on or near the surface, the wood will begin to split and separate apart, and that separation may travel causing a crack or a full break.

The inside of a bow is under high compression and the outside (back) is under extreme tension or stretch. If you studied it, I think it’s likely that you’d find failures initiating on the outside back of the bow and traveling inward from there in mo…

The inside of a bow is under high compression and the outside (back) is under extreme tension or stretch. If you studied it, I think it’s likely that you’d find failures initiating on the outside back of the bow and traveling inward from there in most, if not all, cases.

If you could study that break in slow motion, I think you would see that the wood doesn’t come apart all at once, but that the crack initiates on the outside of the bend, on the surface, and travels from there toward the inside of the bend. In either a bow or axe handle, that weak spot might be where the grain is violated and runs out more than other spots, or there is a nick, knot or worm hole, or a thick or thin area. A weak point might also be where poor design or execution in building stacks an especially high stress on the wood.

Dry bent, with no scorching. This yew wood is prone to exploding apart when it fails. It is easy to understand why bowyers avoid scorching the backs of bows, where the wood comes under very high tension. Understand that this bow is not strung with t…

Dry bent, with no scorching. This yew wood is prone to exploding apart when it fails. It is easy to understand why bowyers avoid scorching the backs of bows, where the wood comes under very high tension. Understand that this bow is not strung with this curve, but rather AGAINST this curve. It would be strung and pulled toward the ground in this picture.

Many Native bows in Western North America have sinew (animal tendon) glued onto the backs, similar to a layer of fiberglass. If there is one main reason to glue sinew or rawhide on the back of a bow, it is to keep the bow from breaking. Given the same exact bow, with and without sinew backing, the sinew backed bow is less likely to break. The reason this dried sheet of sinew prevents cracks is that it prevents them from initiating in the surface of the bow’s back in the first place. If the crack can’t initiate and travel because the fibers are held in place and reinforced, then the bow cannot easily fail in the way it is normally most likely to fail. Sinew backing is a very common way, to prevent the breakage of short bows that are under very high stress. In quite a few cases those bows use wood that is actually somewhat brittle and sometimes could not take the stress of being used to make a short powerful bow. The reason I point this effect out is to reinforce the idea that the initiation of cracks in the surface of wood is probably the initiating event in most wood that breaks under tension.

Sinew backed bow limb. Just like a collar or wrapping on an axe handle, sinew backing helps prevent failure, largely by preventing the initiation of cracks.

Sinew backed bow limb. Just like a collar or wrapping on an axe handle, sinew backing helps prevent failure, largely by preventing the initiation of cracks.

Axe handles are only somewhat analogous to bows, but they are under some of the same stresses and it is very likely that cracks typically initiate on the part of the wood that is under high tension in any given scenario. Like a bow, it is going to happen more where the wood is under greater stress and where the wood is weak at the surface in those high stress areas. This chink in the armor could be a small knot, a dent or nick in the wood or very likely where the wood grain is cut across at a strong angle. Another common place for cracks to initiate is where growth rings come together, because the wood between rings and between the fast spring growth and the slow summer growth are different, so they behave differently under stress.

So here are my working assumptions about axe handles and charring.

In most cases, failures will initiate at a point of weakness in wood under tension, on the outside surface of the wood, traveling from the point of initial failure.

Charring wood reduces the tensile strength of wood fibers, increasing brittleness under tension, therefore making that failure more likely to occur given the same tensile stress.

It’s important to note that theory v.s. real life is not always an easy pile of yarn to unravel. I may be missing something entirely that I haven’t thought of or have not been exposed to. Our decisions are informed by processing experience and information, and those are limited, as is our intellect. It may be that it is rarely, or even never, an actual problem to char the outside of an axe handle. Personally, knowing what I know and having charred and then broken arrow shafts, atlatl darts and other wood items, I cannot think of any good reason that I would burn the surface of a wooden handle that can come under a great deal of stress; on the contrary, it would seem I have good reason not to. Tests that might shed more light on the subject could be done pretty easily, as long as the sample sizes are large enough to account for wood variations and other unknown factors. But I’m not likely to spend my time at that, since I don’t really actually feel any need to treat handles that way.

The primary motivation for charring handles seems to be aesthetic, such as making the tool look more used or antiqued, or just good. And it is a very nice looking effect. I love charred wood and have practiced it a lot for decades, for reasons and effects I won’t go into here. I just built a whole wall of charred and burnished wood for my Indoor YouTube studio corner! But, you’re not likely to find me weakening the outside layer of an axe handle where failure is most likely to initiate, just for cosmetic purposes.

This video talks about how I do treat my axe handles after they are tuned up how I like them.

Charred and burnished pine used to good effect.  This wood is basically under no stress.

Charred and burnished pine used to good effect. This wood is basically under no stress.

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Another question I’ve been asked quite a bit is how to make axe handles look used. My sole recommendation for that is to use them. I get it, you don’t want to be the kid with glaring white new shoes. If I were to treat my axe handles to make them look used, I think I would feel like I was the tool. An axe handle patina earned with dirt, sweat, and sap, rubbed to a polish thousands of times with calloused skin is something of an accomplishment and a point of pride. If you want that, pick just one or two axes, and take the axe cordwood challenge.

So, there’s another in depth dive into more relevant, if obscure topics, brought to you by my patrons @ www.patreon.com/skillcult

Husqvarna Axe Project: Grinding the Axe to Chop Well, and Why Most Axes Don't

I started the husqvarna axe project years ago. I finally got around to putting a grind on it so it can be put to work. I’ll link the new video here and also the whole playlist for the series.

I have learned quite a bit since starting this project. One thing I’ve gravitated toward is what some might refer to as a flat grind, though that is fairly meaningless without some details. I’ve always been able to make my axes cut, but once I stopped worrying about flat spots and not making the bit too thin and took a more thorough approach to trimming the fat from my axe bits, I got to a new level of cutting ability. Almost all stock axes are much too thick in the bit from the factory and have to be filed down. This has long been asserted by almost everyone that has written about axes. Opinions on how to do that are varied and details about how to go about it are usually missing.

If given a file and an axe, few people will take off enough to get the axe chopping efficiently. That is understandable as there is really no reference. In this video, I offer a simple system that is easy to carry out and understand and which will make an axe bite deep. Once a person has that, it can be used as an important reference when experimenting with grinding axes. I also talk about fundamental issues that keep axes from cutting deeply, though I have another video and blog post planned that goes into more detail on that.



Splitting Axe Handle Blanks From a Windfall Tan Oak Log

Recently I was driving out my road and had to stop in the rain and shovel ditches out. I got so wet that I went back home to change my clothes, but within the hour or less I was out, a large Tan Oak fell down in the road.

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I had been eyeing this group of trees already as potential wood working fodder, but this one just succumbed to heart rot and fell over. While cutting it up, I spotted one straight section and saved it aside to split up later. In this video I’m splitting it into 12 parts to stash away for woodworking projects.

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You really don’t need much to split a log. A maul and disposable wedges can be made almost anywhere, usually from the trunk and limbs of the same tree. There are a couple of pointers here about making wedges, the use of boys axes as a one handed hatchet and methods to keep your splits going with the grain. Also basic wood splitting theory regarding run out, which is perhaps the most relevant problem in splitting rails like this.

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I have begun slowly processing these rough split staves down into billets one or two at a time, by removing the rotten heart and the bark. I’m also chopping off about 3/4” or more of sapwood, which is more brittle, weak and rot prone than the pinker heartwood. I’ll be washing the outsides of each billet with a borax solution to prevent insect attacks by powder post beetles, which are populous here, especially with the abundant food available to them with the big Tan Oak die off that is occurring now. They are very destructive to certain woods, Bay and Tan Oak being among the most affected. I’ll also dip the ends into paint, or seal them with fat or pine pitch to prevent the ends from cracking due to rapid drying. After that I’ll just try to dry them at a reasonably slow rate to minimize warpage and cracking.

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While watching this video footage, It occurred to me that I could have made a really neat drum out of that log, or two or three actually! Also that I should try making a barrel out of tan oak. I may save some of the short ends from this log and others this year to have a stash of well seasoned wood for a possible small keg project. Maybe a Calvados keg, hmmm….

The Blood Zone, Common Mistakes In Splitting Firewood On the Ground With Axes

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Since releasing my video on splitting axe cut wood on the ground with axes, I have seen people engaged in what I consider to be risky behavior when engaged in this potentially very dangerous activity. Ben Scott, new head of the axe cordwood challenge project noticed the exact same thing and released a video pointing this specific problem out about the same time that I recorded this one. This is already an awkward and difficult to learn skill without having to stand in strange positions, but standing just any old place when ground splitting wood is something like driving around blind corners and relying on hope that no one is coming the other way. The difference is that we have some control of the tool and ability to read the circumstances. But we are not reliably accurate and faultless machines and that has to be accounted for. The main problem I see is that I don’t think people understand exactly what can go wrong and how serious the consequences might be, and and pointing those things out is the most important aspect of this video.

For learning ground splitting, for instance if working with a group of scouts, you could literally draw a line on the ground and place the firewood in such a way as to form these good visual habits until they stick. Name one side the blood zone and the other the safe zone.

A backing log for the buckstop could be an axecellent axecessory for training this method. Axeidents can easily happen when learning this technique. I’ve seen in happen. It could also make a good fixture in a longer term camp, so that anyone at any …

A backing log for the buckstop could be an axecellent axecessory for training this method. Axeidents can easily happen when learning this technique. I’ve seen in happen. It could also make a good fixture in a longer term camp, so that anyone at any skill level can split wood for camp, or practice unsupervised. Flatten the bottom of the log and cut 5 or 6 notches. But, use it to teach good habits and the importance of direction of cut. Also realize that it is not a 100% guarantee of safety, because the buckstop can only be made so tall before the axe handle will be struck against the top edge.

For learning to split against a back log, the buckstop can be used until axe control is developed and direction of cut is understood. Using a buckstop with an accessory backing log tucked up against it could also be useful in a fixed camp where a number of people at different levels of skill, could safely split wood for camp. A backing log alone is not enough. A friend of mine cut her foot trying to learn to split against a back log, because she wasn’t able to learn direction of cut quickly enough and the axe popped over the log.

Flatten the bottom side for stability and to insure the log is low enough.

Flatten the bottom side for stability and to insure the log is low enough.

The BuckStop is Here! Training ProphylAXis For Bucking Firewood Safely

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I came up with this simple, but very cool idea for safely learning to buck logs with an axe. Here are the whys and whats and a few options for building one.

Watching people learn to buck in person and on video has been fairly horrifying at times. Most of the injuries we’ve seen during the cordwood challenge over the past two years were cuts made while bucking logs. This simple concept could allow people to train in bucking more safely, and just as important, to progress in that training more rapidly. I just came up with this idea a year or two ago and finally got around to trying it. The device is a simply a low guard wall that can be slapped together with some junk that might be lying around. I put together four different versions in about an hour including running around looking for materials. To make just one out of materials laying around would probably be about a 10 minute job.

This low wall should stop the axe should any cut go over the top of the log or through it, thus protecting the user from injury. This idea comes from the practice of using a backing log to buck, as recommended by Mors Kochanski and others. Using a larger log behind the log you are chopping can be very helpful, especially in preventing the axe from coming all the way through the work and continuing to the other side where we are standing. The Bucking Wall is taller and flatter than a log, so it should be more effective in preventing the axe from coming over the top of the log. It also allows one to stand closer to the work, which to me is preferable with a short handled axe. It is also lighter than a log. Finally, it can be built with a floor of plywood to catch the axe in case of over reaching strikes that would normally cause the toe of the axe blade to end up in the dirt.

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Consistent results and physical competence with an axe requires a certain amount of time served swinging one. They also require a certain amount of confidence to use well. The tool needs to be taken in hand and used with enough confidence to keep it under control and it is hard to be accurate and effective when timid and hesitant. It is possible to be so cautious and physically stiff that mistakes are increased or amplified. But how do we have confidence before being habituated to the tool? We don’t, which is why the learning phase is so dangerous. Observe the following quote from The Axe Manual of Peter McLaren published by the Plumb tool company.

“The danger of an axe is largely a mental hazard. The user is fearful; he stands so far from his work that his axe is not under control, forgetting that if he misplaces a stroke, or hits a glancing blow, the axe will always come home to him.

“Safety lies in learning to swing correctly and in placing your strokes accurately. Then stand within easy swinging distance and chop with confidence.

“Of course, there is always a careless man who minimizes any risk and chops more with abandon than with skill. In his hands the axe (or any edge tool) is dangerous. Play safe! But do not fear your axe. Instead--- Master it.”

Celebrity Axeman of old, Peter McLaren’s Manual of axe work put out by the Plumb Tool company. Download for free here…https://scoutmastercg.com/the_axe_manual_/

Celebrity Axeman of old, Peter McLaren’s Manual of axe work put out by the Plumb Tool company. Download for free here…https://scoutmastercg.com/the_axe_manual_/

It is a lot easier to have that confidence once a reasonable degree of physical competence is gained. We don’t want to have false confidence, but ultimately McLaren was right. As a dangerous tool, it needs to be taken charge of and used confidently, with commitment and purposeful intent to do the work at hand.

But he recommended that we learn to use the axe, then use it with purpose and confidence. When each swing feels utterly lacking in said confidence as to where it will end up, or whether it will bite or bounce off, and we are not sure how to gauge distance from hands to the blade, how do we learn to use it safely? A certain amount of time must be spent with the tool before it begins to feel natural and go where we want it to. Enter the Buckstop

Because it is vertical and not round like a backing log, it is even more likely to prevent the axe from coming over the back board and hitting the user. So, at a certain height, it is almost 100% sure to prevent deflected and follow through cuts to the legs while bucking. So, there is the obvious advantage in terms of just preventing accidents, but I think the benefits will extent further. With the fear of injury essentially gone, now we can chop with some impunity, which means any timidity caused by being uncertain of striking our target is no longer at play. This may be a significant factor in allowing one to relax a little and chop with more confidence while working on physical technique. A new user can experiment with things like wrist torque for increasing speed, without increasing danger. In order to chop at their best, the lighter axes that I would typically recommend people start with need to be used with a little snap to create adequate head speed. But experimenting with that head speed is the last thing I would want to see a very new user doing. Using the bucking wall though, you could experiment with that acceleration and with tweaking style and technique in general, without fear of injury. Finally, when you do screw up, it is pretty obvious and I would hope that every time the axe hit’s the wall or wooden base, it stimulates the question of what would have happened if that wall wasn’t there. Even when making the final severing cut at the end to separate off the round of wood, the axe hitting the wall means the axe would be coming through, and if we look at footing position it should give some idea of whether we were at risk for injury.

I think this simple device is a solid idea, and could fill a very important need in the learning phase until confidence and skill are gained. I also think it could build that confidence and skill faster if used with intent. It’s not forever, it’s just a training aid. Many axe competitors habitually wear chainmail socks in both training and competition. Safety is good. But, I would recommend not using this indefinitely, because it could very easily foster bad habits and a false sense of security, which brings me to the down sides.

The two caveats I would say are, first that the buckstop should not be used as an excuse to be sloppy and complacent. One should still concentrate primarily on technique and aim, with a relaxed style, and not on speed and power. Ultimately speed and power are earned over time and more importantly they are nearly useless without a good level of accuracy. Forcing speed and power under normal conditions is dangerous, but even with a backing wall, they still will tend to cause aim to suffer and should be pursued intelligently with an aim to improvement of overall effectiveness, of which power is not the main ingredient as every experienced axeman will tell you. I do however, as I said above, think that using the bucking wall could allow one to progress more quickly into not just speed and power, but efficient speed and power by liberating the trainee to experiment more without putting limbs at risk. Which leads to caveat number two.

One could easily develop bad habits and a false sense of security if released from the fear of injury. I actually think it will be hard not to do so, and it is probably even inevitable. If I were training someone from scratch, I would probably approach it as two different stages, where in the second stage with no Buckstop, they have to learn new important habits and reboot the brain into danger mode. There is, of course, the opportunity to learn some safety lessons if you are continually watching that back wall and every time you hit it asking whether or not you would have lost a toe or two, but that requires a sort of intent or presence of mind that many of us aren’t going to have. Try to use the barrier consciously with the intent of hitting that backing wall as little as possible and not as an excuse to flail away with impunity. When the wall is gone, certainly more awareness and presence of mind around possible errors is going to be essential. Regardless, I would try to make the switch from buckstop to no buckstop as consciously and soberly as possible.

As far as design goes, watch the vide All of them work. You can just use a log that is larger than the piece you are bucking, but the wall should work better than a log in that it easier to move around, often easier to come up with, more transportable and allows one to stand very close, which I tend to do in bucking with the short handled axes I use. It is probably also safer, since it is both taller and flatter. If the device is made with a wooden platform for the log, it will also protect the toe of your axe from sticking into the dirt. @watch.your.follow.through on Instagram pointed out that if there is no base at the front for the log to rest on, it allows the device to be moved easily along the back of the log as chopping progresses. That is true, but it is also probably easier to slide a log along a piece of plywood. In a design with no wooden platform at the front, you can just jam a piece of plywood under the section to be cut to protect the axe, though it may not be as effective. Given that this is a training device and not a long term tool, any minor convenience issues like those only matter so much.

I would encourage making something that is super easy to throw together with common materials or junk that is lying around. I like elegant solutions, which means making and using the simple, easy, cheap thing that works. I am very resistant to keep tweaking the thing and turning it into a design project. Many tweaks could prove useful or clever, but the device that works and is actually built because it is so easy to put together is the best one, because that is the one that will actually be in use. Keep it simple and start using it, worry about tweaks later if they really seem compelling for some reason. If you have a saw and either some nails and a hammer or a screw gun, building one should be very fast. So fast in fact that it shouldn’t be a big deal to build an entirely new one or cannibalize the first to build a new one if it seems worthwhile.

I made them at different heights and it looks like 10 to 11 inches will be best. One I made with a 2 x 12 board had to have the front edge chamferred off as I hit the handle on it a few times. If the back stop is plywood, it probably wouldn’t damage the handle. Unless it needs to be shorter for portability, I think that for cutting 16 inch firewood lengths, 5 feet (150cm), or 6.5 feet (200cm), are going to be the magic numbers, with a 5’ wall, you can safely and comfortably cut 3 notches before moving it along and with a 6.5’ wall, you can make 4. But I would not hesitate to use almost any length if it’s easy or what you happen to have on hand.

As far as using the buckstop to train yourself or anyone else, here are my thoughts. First of all, this is so awesome! I’ve not had the opportunity to train someone from scratch, but I’ve often shuddered at the though of teaching someone to buck for the first time. This tool makes that so much easier. We can both exhale a sigh of relief and work on aim and a relaxed technique without worrying about safety. We can also work on the mechanics of acceleration and other technique stuff that would be much more dangerous to toy with otherwise. If used consciously, we can also get some good feedback on when the axe comes through or over the log and whether it might have hit a body part, trying to form good habits regarding body placement. Footing placement should be conscious as otherwise students might tend to stand right behind the cut with feet together, rather than in a safer wide stance. I think in a long term group or fixed camp such as scouts or a multi-day class it might be good to have one for each student. That way every cut in the board adds to a personal history. The wall could also be painted initially so that cuts show up better. Not every cut to the wall really indicates an accident, but it means something. For a more formal training for kids, I could see having a graduation test at some point where you have to buck so many feet of log with a freshly painted wall and if you make no cuts in the wall or base and meet some other criteria, you get to burn the thing ceremoniously and move on.

It could also be very useful for the student to carry out comparative lessons about such things as chopping styles and angles of cut. Also for trying different grinds and tools, but it can all be done safely. You can not only show people what can go wrong, you can have them do it, which will drive the point home much better, without driving the axe into their leg.

I do think that when it’s time to ditch the thing there should be a hard reboot on safety and awareness. I noticed just testing it briefly that I became very lax about footing placement and edge awareness. If you’re working on your own, you have to be your own bad guy, which is not always easy. If training someone else, be the eyes they need to help them cultivate that constant awareness of the edge and of follow through in relation to their body parts. When it’s time to move on, there really will need to be an emphasis on the fact that the game just changed and there are now real consequences and you can’t just hit NEW GAME after a serious accident.

As I said, I don’t think this should be a long term solution. I think it should be used to the best effect, then gotten rid of or it will cultivate bad habits and dependence. Switching back and forth could prove dangerous, because the two mindsets will be quite different. It is also more work to have it available, to move it to the logs or the logs to it. A skills over gear mindset doesn’t accommodate unnecessary accessories. Make a crappy one out of whatever cheap or free junk is available, don’t fix it unless it’s causing you problems, use it mindfully, then get rid of it and reboot your brain into high safety alert mode.

I think this device is going to prove very useful in certain contexts if it is used with intent. Let me know here or on YouTube if you try it, as I would like to get some feedback. As always stay safe and keep the red stuff inside.

CordWood Challenge 2019, New Leadership and Expansion

This year, I have turned over leadership of the challenge to a young, enthusiastic and very intelligent guy named Ben Scott on the other side of the Atlantic. Though relatively new to the game, he is level headed, confident and truly curious. He posts more to the cordwood challenge facebook page than anyone, including me and has been hammering out axe related YouTube content, much of which shows insight from experience. A lot of that experience and insight comes from doing the cordwood challenge last year where he cut 4 ricks of wood. I think he will not only do a good job, but a much better job than I at facilitating the project, taking it forward into new territory, and being consistently focused and involved. We chatted on skype for quite a long time and have very similar visions and ideas about the cordwood challenge concept and where to potentially go in the future. Pretty early on in the challenge I think I realized the potential and the need to grow or centralize a community and information source around practical axe work. I even took out a domain name, which I’ve offered to Ben if he wants to run with the idea.

I can see clearly the need for such an internet destination that is strictly focused on practical axe work and design and specifically avoids a sort of axe fetishism centered around collecting which tends to take over axe groups and discussions. I think such a project could be run and funded by members, and could house a database of sorts. This might provide a mutually supportive community that learns at an exponential rate and that is instrumental in welcoming novice axe users to facilitate their progress and understanding of the tool and it’s safer use. Ben has also already added some other challenges that could make the project more accessible to people that don’t have access to a forest, or that are doing axe-centric building projects.

I feel like this is really the best case scenario right now. I am also very sure that I know the best place to put what energy and time I can into engaging with the axe community by providing content on axe use, safety and theory. That also has to compete with the many other subjects I want to cover, but I’m quite sure the content I have planned on axe stuff is extremely important, and will do a lot of good and will very likely remain viable into the future. As popular as axes are, my take on them as a practical user who generally buzzkills gearheadism, collecting and fetishism is not very popular, but I feel almost obligated to produce that content, especially in support of the cordwood challenge project.

Any axe head should subscribe to Ben’s YouTube channel. People just interested in the Axe CordWood Challenge in general, or who just want to be supportive of the project are welcome to join the FaceBook page, which Ben is now an administrator of along with myself.

If you want to know more about how my messed up life and health have compelled me to forego this project this year and are limiting my activity, you can watch the video below. My life is pretty messed up lately and I’m having a hard time maintaining anything resembling focus to carry through projects.

As always stay safe choppers.

Axe Handle Breakage, Designing For Resiliency, Weak Links and Stress Distribution

An axe head with a wooden handle has some inherent problems. The head and handle are made of very different materials that behave differently. Steel has a very high density compared to wood. Wood is much more flexible than steel and will dent and break more easily. When using an axe, these differences can cause problems, such as the wood being damaged by forceful contact with the hard unyielding metal head, or the relatively high density of the steel head behaving differently than the handle, thereby putting stresses on the weaker wood. Breakage just below the eye is a very common occurrence. This article and video are an attempt to explain some common reasons why axes frequently break near the eye, having to do with design, or perhaps lack of design in some cases. Breakage in the main body of the handle can of course also occur, but I’m not really dealing with that here. I’m pretty sure that the greater percentage of axe handle breakages are initiated right where the handle meets the bottom of the eye, or within the first few inches of handle, especially if the breakage is not due to wonky grain or other defects. Shear stresses seem to be particularly high in this part of the handle.

In this article, I will be assuming that we are dealing mostly with American axe head patterns, which tend to have thinner eyes than European and Scandinavian axes. Even though American axe styles migrated back to Europe (many axe patterns on that side of the pond are actually American or modified American patterns) the axe eye sizes largely remained bigger than American axe eyes. This is an important point when we look at overall handle design, because with any given axe head, the eye shape just is what it is, and the size and shape of the wood where it enters the eye is therefore pre-determined. Some of these problems are obviated by the use of tapered axe eyes, in which the handle feeds in from the top and fits by friction, but that is a separate subject also. The assumption here is that we are dealing with American style patterns that are wedged from the top. For whatever mix of cultural and practical reasons, these axes have pushed the limits of strength and resilience of the wood used in handles, by evolving toward a small eye.

Aside from the size of the axe eye being fixed, there are two other things that are pretty much givens as well.

One is that the section of handle just below the eye, lengthwise (poll to blade) is wider than the rest of the handle. If the whole handle was the same front to back dimension as the eye length, it would be unusable, so the body of the haft has to slim down soon after leaving the eye.

Predetermined factor number two is that we need a slight flair in handle thickness just below the eye at the back of the handle, as well as on both sides, so that the head seats firmly around the bottom as it is driven on. The front edge of the handle can come straight out of the eye if desired, with no rise, but the other three sides need at least some flair, though not very much. In my view, it is always unnecessary, and also a detriment, to come out of the front of the eye and then immediately outward, forming a shoulder. I see no reason to do that, and every reason not to. If the handle isn’t completely straight coming out of the front of the eye, the rise is best made as a gentle transition.

WE CAN CONSCIOUSLY WORK AROUND THESE FIXED PARAMETERS. IN OTHER WORDS, DESIGN AROUND THE THINGS WE CAN’T CHANGE.

Tools You Need to Bark Tan Hides & Skins Into Leather at Home; Traditional Vegetable Tanning

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In this blog post and new video, I cover all the essential tools needed to make good bark tanned leather as well as a few non-essentials. Tanning materials will have to be treated separately and I will try to revisit many of these tools and their making in the future.

Real natural vegetable tanned leather is that which is tanned with tannic acid sourced from plant materials. While there are excellent sources of tannin in not just barks, but in roots, leaves, pods, fruits, nuts and wood, tree barks are the most used sources, thus the common term bark tanning. There are only a few tools and materials that could be considered essential to the process and none are complicated. In fact, if you strip it down to the real essentials, you need very little. Adding a few simple tools will improve your experience though, and in some cases your leather.

Some tools of the Tanner and Currier, most of which are discussed in this article. The slate bladed two handled knife B is especially intriguing. I need to make me one of them.

Some tools of the Tanner and Currier, most of which are discussed in this article. The slate bladed two handled knife B is especially intriguing. I need to make me one of them.


FLESHING KNIFE

The tanner’s knife, or fleshing knife, is the most important multi-tasking tool of the tanner. In a typical vegetable tanning process, I will use this tool for fleshing, dehairing, re-fleshing, scudding, removing excess water and stretching open the skin. It is also handy when re-soaking dried hides to work open dry spots so that they rehydrate faster. Many new models are available on the market, but a lot of home tanners get by well with homemade tools. Read my blog post on fleshing knives, and watch the Fleshing Knives 101 video for more than you probably wanted to know about them. I just received the Wiebe 12” Fleshing knife in the Mail so I can review it for you guys. I like the overall form a lot for general use, and was told by a dealer that it is actually tempered tool steel, not mild steel. Aside from the potentially weak, narrow and probably short tangs, it looks promising, but I haven’t had a chance to use it at all yet. Aside from unknown potential steel/tempering issues and iffy tangs, as a general purpose home tanning knife it seems likely to be a good choice for under 30.00 shipped.

A collection of tanner’s knives

A collection of tanner’s knives


BEAMS

Wood and plastic beams. Left is the outside cur from a log mill and the other is cheap ABS, though PVC would be much better, thicker, more durable and heavier. I haven’t used plastic beams much, but I can see why people might need to use them.

Wood and plastic beams. Left is the outside cur from a log mill and the other is cheap ABS, though PVC would be much better, thicker, more durable and heavier. I haven’t used plastic beams much, but I can see why people might need to use them.

The tanners all purpose scrapping knife is of no use without a beam. For most, a beam around 6 to 6.5 feet long will do well. I’m currently using. 6.25 foot beam, which is just about right for me. It can be of wood or plastic pipe. If wood, it is best to have a smooth work area that is free of knots, large cracks, grain tears or other major blemishes extending at least 18 inches down from the top. I would try to stick with 8” diameter and larger, but to get started, or in emergencies, you can use a smaller diameter beam. If the diameter is very small, you can flatten off the working area to a larger radius. A very small radius results in a small area of contact between the tool and the beam surface. For most vegetable tanning related beam tasks, a larger surface contact between beam and tool is preferable. Large logs should be at least split in half, or even hollowed on the underside to thin them. Most of my old beams were hollowed out on the underside with a hatchet to reduce weight and discourage cracking. Taking the center of the log out by splitting it in half will reduce both the incidence and severity of cracking. Reducing the thickness further will reduce that risk even more. It doesn’t have to look pretty, just chop out some of the wood to form a hollow on the underside.

A good source of nearly ready made beam material are the round sided slab cuts from the outsides of logs removed in milling lumber. You may be able to get some from a local mill, or small custom miller. Check the phone book (under lumber, milling?) or ask about local portable mill owners at your chainsaw dealer or repair shop.

If making a beam out of lumber, choose vertical grain like this over plain sawn face grain if possible as it will be less likely to crack. This is never a choice with a round or split log.

If making a beam out of lumber, choose vertical grain like this over plain sawn face grain if possible as it will be less likely to crack. This is never a choice with a round or split log.

I haven’t done it, but I suspect a pretty good beam could be made by radiusing the working area of a 2x12. I don’t seen any good reason it wouldn’t work. If so, try to choose one that has edge grain on the working face and not face grain. that is to say that the rings of the tree run from about 45 degrees or more toward straight through the thickness of the board. This is usually referred to as vertical grain and will be much less prone to cracking than plain sawn wood faces.

Now that I’m thinking about it, an edge grain (if you can find that good of a board these days) 2x12, backed by another 2x12 could make a pretty nice beam. I would leave a slot in the backing board for a plywood stand, augmented by two 4x4’s firmly attached with lagbolts similar to the arrangement pictured below. For a firmer union, wedges could be used to afix the plywood in the slot.

You can do many different things to put legs on the beam. A good option is to drill large holes, about 2 inches in diameter and plug in round wooden staves for supports. My current beam has two closely spaced boards screwed to the bottom on edge, just far enough apart to slide in a piece of plywood as a support. It works well enough.

Simple support that is easily taken down for transport. I would use 4x4’s next time.

Simple support that is easily taken down for transport. I would use 4x4’s next time.

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DRAW KNIFE AND SPOKE SHAVE

Maintenance tools. The drawknife is probably more versatile and essential than the spokeshave.

Maintenance tools. The drawknife is probably more versatile and essential than the spokeshave.

These tools are used for creating and maintaining, a smooth beam surface. It is ideal to have both. The draw knife is best for major wood removal and repair, and the spoke shave for maintenance and smoothing. You can get away with just one of them though, in which case the draw knife is the more versatile of the two. Draw knives are also handy for peeling tan bark from logs if it is not slipping off easily. If you intentionally shred the bark off of the log in small, thin slices, you may not have to chop it any finer for extracting the tannins.

When shopping for used draw knives watch out for two things, wear on the blade and rounded bevels on the back side. Old draw knives can sometimes suffer severe wear. Look to see that the blade is about the same width it’s whole length. It should also be flat on the back with a bevel on the top side only. Either by long wear, or by mis-sharpening, the back is sometimes not flat. In a very well used knife the back may be subtly dished or rounded off, but if it has an obvious bevel or extreme wear, steer clear.

I would not recommend buying a spoke shave that has only one screw to adjust and no fine adjustment screws. The type shown is common and works well.


WATER AND HOSES

Water is not just a material, it’s a tool for cleaning things off. Skins, tools, boots, hands and tubs need frequent rinsing You will use a lot of water, and the more convenient and available it is the better. I usually use a standard hose end shut off valve to control flow. I like these valves better than most purpose made sprayers, because when opened wide the flow is fairly high, which is nice when you are filling containers with water a lot. If opened only part way, the shut off valve makes a reasonable sprayer for cleaning things off. As far as I have seen, craftsman rubber hoses are the best deal going when they are on sale in the spring, which they usually are.

Better than any sprayer I’ve tried when you want high flow.

Better than any sprayer I’ve tried when you want high flow.

Passable spray pattern and volume if not as good as a purpose made sprayer.

Passable spray pattern and volume if not as good as a purpose made sprayer.


BRUSHES

A stiff cleaning brush will be found almost indispensable for tubs, aprons, beams and tools. You may also need a finer brush to scrub bloom off of the grain side of skins. Bloom is a whitish deposit that forms on the grain surface during tanning. It is more common with certain tanning materials and also when layering or pit tanning is used.

Stiff brushes for cleaning tubs, tools and beams are almost essential

Stiff brushes for cleaning tubs, tools and beams are almost essential

Surface on the right shows bloom deposited in the tanning process. The section on the left has been scrubbed clean with an old hair brush with medium bristles. The dark stain in the center is where the skin floated above the surface of the tan liquo…

Surface on the right shows bloom deposited in the tanning process. The section on the left has been scrubbed clean with an old hair brush with medium bristles. The dark stain in the center is where the skin floated above the surface of the tan liquor :-/


PROTECTIVE CLOTHING

BOOTS: Rubber boots are very nice to have if you do a lot of tanning. If you don’t wear them, the hide will inevitably drip all over your feet as you stand at the beam working.

GLOVES: I tanned without gloves for years, but I love my elbow gloves now. Don’t bother with dishwashing gloves, or any other short gloves. You will inevitably reach into a solution and they will fill with smelly liquid. I use these affordable Atlas gloves, which have held up okay. When they die, I may invest in a more heavy duty glove.

APRON: I would avoid buying very cheap aprons. I am still using the same two heavy duty black, rubberized cloth aprons that I bought used at a yard sale over 20 years ago. You can make one from a sheet of vinyl or plastic of some kind, or tie a trash bag around your waist, but if you tan a lot, the protective gear is really nice to have. Hip waders are great if you already own them.

Non-Essentials, but so nice to have!

Non-Essentials, but so nice to have!


CONTAINERS

Vegetable tanning requires certain kinds of containers. Materials that can be safely used for all the processes are wood, plastic and rubber, ceramic, stainless steel and enamel ware. I use galvanized tubs, but only if there is no rust at all on them, and for liming and rinsing only. Aluminum I’ve used for rinsing only. I know aluminum and ashes don’t mix well but I don’t know about lime. While I have no idea if aluminum is safe for tanning liquors, I’ve avoided it. Anything that rusts is out of the question for all processes related to vegetable tanning except for dyeing the skin black. Any rust or iron will darken the skin permanently.

The common rectangular plastic storage tubs with lids are the most versatile. Choose designs that can be rained on without funneling any water into the tub if possible. Some do not have that kind of overhang on the lids, or have holes of some kind o…

The common rectangular plastic storage tubs with lids are the most versatile. Choose designs that can be rained on without funneling any water into the tub if possible. Some do not have that kind of overhang on the lids, or have holes of some kind on the edges. All of these others also get used, but none are particularly better than rectangular tubs.

The ubiquitous 5 gallon plastic buckets are handy to have around for various uses, but tanning anything over the size fur bearers in buckets is unpreferable. Large rectangular plastic storage tubs of 15 gallons and up are very useful as are other large tubs of various sorts. I have used wooden wine barrels cut in half quite a lot. They look really great, but aesthetics aside, they have their down sides. Wooden barrels need to be kept filled with water, or they dry out and fall apart. Since they need to be full of water, they breed mosquitoes unless you dump them regularly and they are quite heavy when full. You can tan hides up to the size of deer in half wine barrels very easily and sometimes large hides if you get creative. The size of the container should be adequate for the size of skins you are tanning. Without getting into specific details, an 18 to 20 gallon tub is adequate for deer, goat and similar sized animal skins. I’ll usually cut cattle and other large hides into sides and bellies, and those pieces can be tanned in a half wine barrel or large rectangular tub easily enough.

Rectangular tubs are an advantage over round ones, when layering, a technique where you put layers of shredded bark between layers of hide and let it sit for a month or three. I can layer a deer hide well in an 18 or 20 gallon tub, by carefully folding it up with layers of bark between all the folds, but if layering a larger hide, or even a very large deer skin, you’ll need to size the tub up. For liming, rinsing, or tanning the skins in liquors, round containers have the slight advantage in being easy to stir, but that is not important enough to favor buying them over the more versatile rectangular tubs. Use what you have or can get cheap or free if it works, but if you buy something storage tubs with lids are probably the best all around. If you are tanning cattle, elk, moose, horse or buffalo skins, and want to keep them whole (not a very good idea unless you really need it that big), start keeping your eye peeled for larger containers. However, too large is too large. You don’t want to have to use excess amounts of liquid to tan, rinse or lime a hide.


BARK CHOPPING

Primitive and slow, but effective enough. The benefits are that it makes you slow down and chill out, and it’s good hatchet practice.

Primitive and slow, but effective enough. The benefits are that it makes you slow down and chill out, and it’s good hatchet practice.

Some materials, like sumac leaves are easy to use, but you will generally have to cut up barks, roots and woods. I have almost always used a hatchet on a block of wood. I lay out a tarp to catch the chips and start hacking away. You could use a small axe, but for most people, an average sized hatchet is a good weight to start with. A heavy hatchet or axe can lead to repetitive strain injuries like carpal tunnel much faster. Just ask my tendons about that.

Hatchets can also be used to “raze” off the outer dead portion of the bark, which was sometimes so removed in traditional tanning as it was considered unnecessary or even injurious to the leather.

Chipper/shredder machines can be very effective. Garden chippers are often under-powered for thick heavy bark, but they are nice when they work. If necessary, you can break the material up into smaller pieces, or try shredding it while still fresh and softer. If there is a lot of rust in the chipper, it could contaminate and darken your liquor. Consider running some branches and leaves through the unit to clean it out.


COOKING POTS

It is possible to extract the tanning materials from plants with cold leaching, but it is much faster to cook it out. Even though I don’t know that it isn’t safe, I have always avoided aluminum. That is easy for me to do though, because I have large stainless steel pots from 3 to 5 gallons. Enamel pots could work, but be sure there are no rusty spots where the enamel has chipped away. Copper was used at one time, but large copper containers are expensive and uncommon. Large thin walled stock pots with thin bottoms can be very cheap and are fine for cooking bark, but will easily burn food if you are not careful. Try to get at least 16 quart and preferably 20 quart or larger. I find large stock pots like this to be indispensable tools in my lifestyle and they are a lifetime investment. When shopping key points to look at are thickness, build quality (especially handles) and steel quality. Some stainless imports are made of inferior metal. Read reviews carefully. When I won some fancy all clad cookware in a contest, I sold it on ebay and bought a Tramontina stock pot, which I’m happy with.

A 3 gallon stainless stock pot. Get 20 quarts or larger if you can afford it or better, repurpose a stainless beer keg.

A 3 gallon stainless stock pot. Get 20 quarts or larger if you can afford it or better, repurpose a stainless beer keg.

You can also modify an old beer keg, which many home brewers do for cooking beer mash. Full sized Kegs are 15.5 gallons and a 1/4 keg is 7.5 gallons.

I also own a large pool filter housing that must hold around 25 to 30 gallons. I set it up with a valve and cook large batches of canning jars and bark in it. I have never seen a comparable one. In most units the lid is nearly as tall as the body, making them of limited use.

My pool filter housing bark boiler, aka the MEGA CANNER.

My pool filter housing bark boiler, aka the MEGA CANNER.


Happiness is tan liquor on tap. It doesn’t get any better than this folks.

Happiness is tan liquor on tap. It doesn’t get any better than this folks.

SLICKING TABLE OR BOARD

To use the following two tools, the slicking iron and slicker, you need a large flat surface of some kind. The skin is stretched, smoothed and flattened with this trio. These are only used if you want to dry the skin smooth and flat. If the hide is to be softened you dry it in some way that is less involved. A good technique for drying hides flat is to paste them down to the board with fat applied to the flesh side. This technique allows us to finish the grain out perfectly smooth and then leave it on the board to dry slowly. Just put it where your chickens can’t walk on it! You can also nail the skin to a wall to stretch it, or lace it into a frame, but for leaving hides well flattened and finished, you probably can’t beat the slicker and slicking Iron on a smooth slab. If you are doing thick skins, you can get away with something that has a rough surface, such as unfinished plywood. When working thin skins on a slab, the surface should be smooth or the texture of the surface will show through on the grain, much like the technique of rubbing a piece of paper placed over a textured surface with pencil or charcoal. I use plywood and a large slab of thick salvage plastic. Traditionally, stone tables have been used. If you run across a large surface that is very smooth, water resistant and 4 feet or more wide, grab it.

A large sheet of salvaged structural plastic that I use as a slicking board.

A large sheet of salvaged structural plastic that I use as a slicking board.

Cattle leather oiled and pasted out to boards to dry with the slicker. When working with thick skins, the board texture will not show through. When finishing thin skins, you will need a smooth surface unless the skin is to be softened later, or the …

Cattle leather oiled and pasted out to boards to dry with the slicker. When working with thick skins, the board texture will not show through. When finishing thin skins, you will need a smooth surface unless the skin is to be softened later, or the wood grain will show through on the hide’s grain surface.

The skin can be pasted to the board with a coating of fat on the flesh side. It will stick well enough if it is dried slowly. When pasting thick skins to boards, you must use wood for thick skins or the skin may mold from drying too slow. For thin skins you can get away with pasting them to a non breathable surface like plastic, but make sure they still dry out within a couple of days. I use this technique a lot. I also often use it if I’m going to use the graining board to soften the skin (see below), but in that case, it is okay to use a rough piece of plywood, because the grain is going to be wrinkled and reworked anyway so the texture of the board showing through the skin is of no consequence.


SLICKER

This tool is usually made of stone or glass and you can make your own with a piece of slate. it is a slab of hard material, with one rounded smooth edge, and and smooth rounded corners. A handle is nice, but not necessary. The tool is used to smooth and even the grain side of the skin and to paste it down onto a slicking table or board with fat for slow drying. You could probably have a glass shop make you one out of a 3/8” glass. A shop that works with stone tiles should be able to make you one as well, or at least cut a slab for you if they don’t already have some spare tiles of the right size. If you want to make one, cut a piece of slate or other clean hard stone and grind the edge round on a slab of cement or sand stone. Use water as a lubricant. If the stone is hard, add sand with water to make a slurry. Slate is fairly soft and easy to work. This method will even work with hard stone or glass if you are patient. It can be finished and polished with diamond sharpening hones and/or sand paper. A belt grinder would also be very handy, but the dust will mess up your lungs. Silicosis fibrosis anyone? Glass grinders are lubricated with water to prevent dust. You can also still buy slickers new, since a few leather workers use them for polishing. I have also used hardwood and moose antler in a pinch.

Size should be around 4x5 inches and 1/4 inch or more thick, with the long edge being the rounded working edge.

Vintage slickers from the museum area of the Muir McDonald Tannery in Dallas Oregon, now sadly closed. Both are slate. In the tool on the left, it appears that there may be screws for clamping the slate into the handle.

Vintage slickers from the museum area of the Muir McDonald Tannery in Dallas Oregon, now sadly closed. Both are slate. In the tool on the left, it appears that there may be screws for clamping the slate into the handle.

Glass plate in a leather working machine. This partly replaced and augmented the slicker. This may be the scariest machine I’ve ever seen in operation. Muir McDonald Tannery, used to polish the grain of tooling leather.

Glass plate in a leather working machine. This partly replaced and augmented the slicker. This may be the scariest machine I’ve ever seen in operation. Muir McDonald Tannery, used to polish the grain of tooling leather.

Smoothing the grain and flattening.

Smoothing the grain and flattening.

Home made slate slicker 1/4 inch thick and a slab of repurposed jade with the edges polished

Home made slate slicker 1/4 inch thick and a slab of repurposed jade with the edges polished

ideal slicker edge is evenly radiused and polished.

ideal slicker edge is evenly radiused and polished.

The slicker at work dealing with wrinkly edges. This tool is always used with fat as a lubricant.

The slicker at work dealing with wrinkly edges. This tool is always used with fat as a lubricant.


SLICKING IRON

My current ideal slicking iron prototype. I would favor a thick blade. This is a tool where weight and rigidity can be advantageous.

My current ideal slicking iron prototype. I would favor a thick blade. This is a tool where weight and rigidity can be advantageous.

This tool is similar to the slicker in size and shape, but it is a metal scraper with a dull edge. It is used on the flesh side of the skin to even out wrinkles and smooth and stretch the skin out toward the edges, before turning it over to use the stone or glass slicker. The slicking iron should not be super wide, about 5 inches wide at most. If I made one to my specifications right now, it would as in the diagram. It would have a very, slight radius across the working edge. I would also add a generously sized hardwood handle that is slightly drop shaped in cross section, copper riveted, and saturated in raw linseed oil. Regular carbon steel is okay to use, but always check it for rust and clean before using. Never leave it resting on the skin.

A serviceable homemade sicking iron and a cheap dough scraper. The dough scraper is on the thin side, is already rusting and should be modified to narrow it. It is probably better to check in with local scrap yards, metal fabricators and sheet metal…

A serviceable homemade sicking iron and a cheap dough scraper. The dough scraper is on the thin side, is already rusting and should be modified to narrow it. It is probably better to check in with local scrap yards, metal fabricators and sheet metal workers.

Dough scrapers can be used if modified. Most dough scrapers are wide and could stand to have an inch or more removed from their width to make them 4.5 to 5 inches wide, which you can do with a hacksaw and files. Use a file to sharpen and modify. The corners should be rounded off well to a 1/4 inch radius and the whole thing sharpened from both sides to form a fairly obtuse edge (not too thin) and then dulled enough that it won’t cut the skin. The edge should be of such a dullness that it will easily grab the skin and pull it when the tool is used, but will not cut or gouge it. If shopping for one, look at reviews to make sure it is not too thin. Cheap scrapers will bend under the high stress applied to this tool under normal use. I bought this one and it is barely thick enough. It is also already showing some rust as cheap stainless steel is prone to do. Here are a few that look like they may be thick enough, but it’s hard to say until you see them in person. pizza cutter, RSVP, OXO. Keep in mind that they will still be better if modified by narrowing them, so dropping by your local sheet metal worker or metal fab shop first is probably smarter. They usually have lots of scrap around and all the tools to make something like this quickly, minus the handle. If you have a file, a drill and a saw to cut a kerf in a wooden handle, just have them cut out a slab for you and do the rest yourself. If you have a good metal salvage yard around, look there for scrap stainless.

This paunchy spot was eventually flattened completely by persistent work with the slicking iron and slicker.

This paunchy spot was eventually flattened completely by persistent work with the slicking iron and slicker.

You may very well be able to use some sort of household item or kitchen tool in place of the slicking iron, for instance a thick stainless spatula. You can also do some of this work on the beam with the fleshing knife, like stretching the skin our toward the edges. At times though you may wish you had the slicking iron for dealing with tough wrinkles and lumps in heavy hides. I would definitely say it is more necessary and useful when dealing with big thick skins. It’s not a tool you have to have to start tanning. You will know when you need it. Checkout this image of Talcon working down a paunchy spot in a bark tanned bull hide. That spot ended up totally flat in the end. This is the kind of application where the slicking iron shines.

The same hide flattened, smoothed, pasted with fat to the board and left to dry slowly.

The same hide flattened, smoothed, pasted with fat to the board and left to dry slowly.


OTHER OPTIONS FOR STRETCHING AND DRYING

If you do not have a slicking table, and need to stretch a skin out to dry, you can use a frame with ropes. Cut many holes, parallel to the edge and lace the skin evenly and tightly. This will not always remove wrinkles and paunchy spots like slicking out on a flat surface can. Framing a hide is also a lot of work and wastes skin around the edges. Similarly, you can stake the skin out flat just off the ground. A better option than both for most people will be to nail the skin out to a large board or wall. Use hot dipped galvanized box nails if you can. Any nail that will rust is not recommended and nails that are already rusty are a sure way to leave black stains on your hide.

Horse sides framed for drying. Not the best solution in terms of labor and material conservation. It also does not provide the best options for flattening and smoothing the skin.

Horse sides framed for drying. Not the best solution in terms of labor and material conservation. It also does not provide the best options for flattening and smoothing the skin.


PALM AND ARM BOARDS

Old engraving of a Currier at work with an arm board. If you look closely, you can see that the artist illustrated the wooden teeth on the sole of the board

Old engraving of a Currier at work with an arm board. If you look closely, you can see that the artist illustrated the wooden teeth on the sole of the board

Skins can be softened by rolling on a table with the hands and forearms. These tools are used to make that job easier and work the skin a lot harder.

The soles are designed to grip the skin’s surface. One type has a wooden face with ridges carved into the sole from side to side for when the tool rides on the flesh side of the leather. Boards with cork glued to the soles are used when the tool will contact the grain side.

There are two basic sizes, a hand board, sometimes called a pommel, and an arm board. The hand board is short, 8” or less, with a strap that goes over the hand. The arm board rests along the forearm and has a strap at the back and a peg at the front for a handle. The difference is size and scope of work. Any home tanner ought to do fine with hand boards.

If the skin is worked folded grain side to grain side, the result is a pleasing wrinkled grain surface since the grain is crushed and compressed. The process of creating that grain effect is called graining, thus the term graining board. In this case, the sole of the tool touches the flesh side only and the teeth cut into the wood provide excellent grip.

Postion for graining process. Note the ridged graining board contacts the flesh side only.

Postion for graining process. Note the ridged graining board contacts the flesh side only.

Surface produced by graining

Surface produced by graining

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If a board is used with the skin folded flesh side to flesh side, the grain surface is left smooth because it is stretched instead of compressed. The cork soled board is used in this case to prevent denting and damage to the grain surface.

An antique cork faced arm board from the Muir McDonald Tannery in Dallas Oregon. Note that the cork is partially worn off on the front of the tool

An antique cork faced arm board from the Muir McDonald Tannery in Dallas Oregon. Note that the cork is partially worn off on the front of the tool

Fancy Antique cork soled board.

Fancy Antique cork soled board.


MALLET

In some cases, we may want the skin to be compressed and hardened, not softened and broken loose. The tool for this is a wooden mallet with a polished face, which is used to condense the leather when it’s in a damp, but not wet state. The face can be close to flat, but the edges have to taper off and round out gently. If you are leaving any kind of dents in the skin, then you need to either hit the leather flatter, or refine the edges. The leather should be smooth when finished. Use the heaviest wood you can, mine is probably iron wood and is extremely dense. Polish the face to a gloss finish. In the past, both Iron and brass/bronze mallets have been used, but make sure they are very clean and polished, with zero rust or oxidation. Even so, you are risking staining the skin with a steel hammer, so I recommend sticking with wood.

The mallet for compressing and firming leather should be dead smooth. Use the densest wood available. The hide underneath in the foreground has been pounded leaving it about 1/3 thinner, much denser, stiffer and polished. Otherwise, it was exactly t…

The mallet for compressing and firming leather should be dead smooth. Use the densest wood available. The hide underneath in the foreground has been pounded leaving it about 1/3 thinner, much denser, stiffer and polished. Otherwise, it was exactly the same as the top piece.


STAKE

This is a dull metal blade set into a post that is used for softening and breaking open the fiber of skins. They are useful if you are trying to get skins really soft and for working furs. Unless you are doing one of those two things, it’s not a very essential tool. I find them more useful in braintanning buckskin and working furs of any kind. The post can be permanent or in a stand of some kind for portability. The blade should be rounded at the corners and they usually have at least a very slight radius. The width of the blade can vary. For any kind of large skins, a wider blade would be better. 5.5 inches with the edges rounded to a 1/4 inch radius and a very, very slight radius to the whole edge would be good for general home tanning work of all kinds. A lot of dough scrapers are 6 inches wide, so that might be a good source of material for a blade. It should be stainless if possible, so you can leave it wet or in the weather. Use stainless steel screws as well.

A simple portable stake used for classes. A fixed stake or one on a heavy base is better if you’re going to use it a lot.

A simple portable stake used for classes. A fixed stake or one on a heavy base is better if you’re going to use it a lot.

Use stainless steel screws

Use stainless steel screws

A good stake blade design for the home tanner.

A good stake blade design for the home tanner.

This blog post and similar content is informed by almost 30 years of research, experience and communication with other tanners. You can support my efforts to bring back and preserve these traditional self reliance skills and arts by sharing content to friends, forums and social media, with general financial support on patreon.com/skillcult, or with one time donations using the link in the side bar. I also now keep separate accounts for earmarked donations toward research in tanning and apple/plant breeding. If specified, donated funds will be used for things like tools and materials, and outside labor solely related to either endeavor. Thanks for reading :)

The Tanner's Knife, An Essential Multipurpose Tanning Tool for Fleshing, Dehairing, Scudding and Frizzing

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The fleshing knife as it is commonly known, but probably more appropriately known as a tanning or tanner’s knife, is the primary tool of the tanner. This versatile knife can be used for fleshing and re-scraping the flesh side of the skin, de-hairing, removing the grain (frizzing), scudding out liquids to flush unwanted moisture and loose material from inside the skin structure, moving the hide on the beam and trimming the edges of the skin. While there are specialized two handed knives for some of these tasks, they can all be performed with the same tool if it’s within certain design parameters, which is what will serve most home tanners best. In this Blog post and video, I go over some of the different types, both commercial and homemade with some tips on weight, length, styles, making your own, and other such things.

The focus here will be on the home tanner working on beams about 8 to 12 inches wide. Keep in mind that most new models are designed by and for fur trappers, most of whom do not do a lot of general tanning work. The amateur tanner can get by with tools that are much less than ideal, so there is no need to overthink the problem too much, or find the perfect tool just to get started. You can always upgrade later if you want to.

Length: The typical professional tanners knife of the European style is quite long and not really best suited to the home tanner. Samples I have range from 3 to 3-3/8 inch wide. 16 inches is a typical working edge length. These long knives were often used on very wide beams with shallow curves. The strong, experienced men using these tools, combined with the large area of contact formed between the gently curved edge of the tool and the wide beam, would make for very efficient and quick work. I think the ideal length for home tanners working a variety of skins on narrower beams is about 20” long in total with 11” working edge and 4.5” handles. A working edge up to 12 inches and down to 10” with 4.5 inch handles is also fine. With such a length, the tanner can comfortably do all manner of work from very large hides, down to fur skins. Wider beams require wider knives and/or the edge of the tool may need to protrude out in front the handles. I would not recommend working edges much smaller than about 10 inches, and then only out of necessity. It is not just the working edge though, but also the space between the handles, which allows for comfortable work.

Styles: Nearly all traditional styles seem to be curved. The classic European style of tanning knife that is most common is wide, curved and dished. The compound curves of the cup and the arc combine to strengthen the tool, allowing it to be fairly thin, and yet still very rigid. The concavity of the underside seems to offer some geometric advantage in scraping. The concavity also means that the tool can be used flat on the hide without rubbing on it, which I suspect might be part of the impetus for the design, although I have rarely used them that way. Professional tanners who worked hides day in and day out would probably be able to get away with doing things that the rest of us can’t, such as using sharper tools at lower angles. These traditional, wide, dished knives are very nice to use, though if I were designing one from scratch for home tanners who are doing many different types of skins and tasks, I would probably make it considerably narrower than they usually are and no wider than 3 inches. The back edge is sometimes kept very sharp and can be used for tough spots, gaining access under tough membranes, or as a sharp slicing knife for trimming the skin during fleshing. I have also read of tanners filing teeth into the back of the knife so it can be used to pull skins up the beam to reposition them for scraping without using the hands. You can do this maneuver on small skins without cutting teeth in the back of the tool, and I do, but on large heavy hides, I can see why they would make this modification. The option is to let go of the tool with one or both hands to readjust the skin on the beam as each area is worked over, which is much slower.

Traditional style knives. From the top down, A cheaper modern version @ 16”, W.H.Horn & Bro’s England 15” edge-3-3/8” wide- 27” total length, Horn Brand cut down to a 12 inch blade by someone who probably thought 16 inches was too long. I just saw a…

Traditional style knives. From the top down, A cheaper modern version @ 16”, W.H.Horn & Bro’s England 15” edge-3-3/8” wide- 27” total length, Horn Brand cut down to a 12 inch blade by someone who probably thought 16 inches was too long. I just saw a picture online of one cut down exactly the same way. It even had a similar handle. Just goes to show, those super wide tools are for use by professionals in a professional setting and not suited to everyone and every task.

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Other tools are narrower and usually thicker, sometimes with only one working edge. This type is good for home tanners with a surprising number of models and brands available new. Newer ones are often sharpened on the back as well and many are fairly flexible compared to older ones I’ve seen.

Width: A versatile knife for the home tanner would probably be anywhere from 1.5 to 3 inches wide. Though still very usable, extremely wide tools can be less stable when it is required to push very hard as is sometimes necessary when graining (frizzing) un-limed buckskins or fleshing very difficult skins. My two favorite tools currently are a shortened traditional cupped knife that is worn down quite a lot to about 2.5 inches wide. More relevant though, is that the concave curve, which is the main working edge, has been worn back closer to the handles, making it more stable to use when pushing very hard. A full width knife however is fine as well, but if I designed one from scratch it would probably be under 3 inches wide.

Another favorite tool I have was forged out of a wagon leaf spring and is about 3/16 inch thick and 1.5” wide, which makes for a durable, versatile tool of a good weight. Tools as narrow as 1 inch can be fine too depending on material and use. There is a type of knife that is very thin and flexes to conform to the curve of the beam, but I have never had a chance to examine, let alone use one. If the tool is both narrow and short, the handles may get in the way, necessitating the use of a very narrow beam.

For whatever combination of reasons, these are the tools I’m most likely to grab first. The. traditional wide knife is worn back, making the edge closer in line with the handles, which is more stable when doing hard work. The second is forged from a…

For whatever combination of reasons, these are the tools I’m most likely to grab first. The. traditional wide knife is worn back, making the edge closer in line with the handles, which is more stable when doing hard work. The second is forged from a wagon leaf spring, 3/16” thick, 20” long, 1.5” wide. The working edge is only 9.25”, but there is plenty of working room between the handles. If I made a knife like this again it would have a 10” or 11” working edge. the handles are antler.

If the tool is too short and narrow, you will not be able to use it on wide beams like this one, because the handles will interfere. It also doesn’t give you a lot of real estate to work with on the edge. If the hands are held too close together, it…

If the tool is too short and narrow, you will not be able to use it on wide beams like this one, because the handles will interfere. It also doesn’t give you a lot of real estate to work with on the edge. If the hands are held too close together, it can become less ergonomic to work. The wider your shoulders, the wider the tool could be.

Thickness and weight: Wider tools are generally relatively thin in order to avoid excessive weight. Narrower tools are often a lot thicker, though many of the newer, higher end tools are thinner than the older ones were. A range of weights are usable, but tools can be both too light and too heavy in my opinion. I’d much rather a tool was too light, but some weight offers stability and the advantage of momentum in some scraping processes.

Straight v.s. curved: Straight tools are perfectly serviceable. I do prefer a curve and would never design the perfect tanning knife with straight edges, but if material is available to make a straight tool, I would not hesitate. I’ve used straight planer blade tools for countless hours and endless square feet of hide scraping. Once I started using a curved tool, I was sold instantly, but I could go back easily enough. I think the main advantage of curved tools is that it is easier to incorporate tilt and slide techniques in scraping.

Tilting the knife edge slightly off of perpendicular is an important refinement to scraping technique. Imagine a straight edged fleshing knife held at a slight angle by putting one hand slightly away from you, and one hand slightly back toward you. If the tool is pushed straight forward while tilted askew like this, there is a slight advantage in scraping, something akin to a slicing action, though not quite the same. You can achieve the same effect with any cutting edge in wood, such as a plane, spokeshave, knife or draw knife by tilting it. This subtle difference in technique can have a large effect. Curved tools, when held slightly to the left or right, create this effect automatically without having to hold the tool askew at all, or at least less so.

Sliding the tool side to side very slightly in a slicing motion as the tool is pushed forward is another very important subtle refinement of the hide scrapers art. Combined with tilt, it is even more effective. Since tilt is already built in to a curved knife, it is easier and more ergonomic to achieve this combination of techniques when using a knife with a curved edge.

The radius of the curve should not be too drastic. Shown are some curved tools to give you an idea of what some look like. A factor in degree of curvature, or lack of curvature, is that the radius of the beam combined with the radius of the knife determine how much of the tool contacts the beam. That contact width has everything to do with how much work is done with each stroke and how hard it is to do that work. In one extreme case, you might be scraping off the grain from the tough neck skin of a deer, which is going to require a narrow area of contact. If the width of contact between beam and knife is wide, you will have a very tough time of it. Still, with an 8 inch beam and a very moderately curved knife, you should still be okay. For general work, I prefer a beam around 12 to 14 inches wide with a moderate curve. Coupled with a curved knife, that makes for a reasonably wide area of contact resulting in efficient work for most processes. If I used a 6 inch wide beam with a high crown and a straight tool, I would be at my work much too long when doing most of the relatively easy processes that I engage in most often, such as fleshing and dehairing, simply because the strips I would be scraping off would be so narrow.

If a straight line is drawn from one corner of the edge to the other, the distance from that straight line to the tool edge at the center of the tools are as follows Top to Bottom:9” long, 5/16” to edge,15” long, 3/4”16” long, 3/4”12” long 1/2”Botto…

If a straight line is drawn from one corner of the edge to the other, the distance from that straight line to the tool edge at the center of the tools are as follows Top to Bottom:

9” long, 5/16” to edge,

15” long, 3/4”

16” long, 3/4”

12” long 1/2”

Bottom tool, not measured

The bottom line is that I prefer a moderately curved tool for general work. The curve I would start with as a prototype for testing would arc in an even radius, with a rise of about 3/8” at the center of the tool on an 11” blade.

Material: The cheapest knives are made from cheap mild steel which cannot be tempered to keep an edge. This type of budget tool can work, but they are not preferable and will require more frequent sharpening. Better knives are made of tool steel and tempered to take and hold an edge. If at all possible, I would recommend something that will hold an edge. Stainless tools are nice to have when working around water and salt, but If tools are taken reasonable care of, regular carbon steel is fine. Planer blades, discussed below are rust resistant, but not stainless. For making tools at home, you can use a number of common pieces of steel.

Miscellaneous steel items that could be used to make a tanner’s knife. Left to right, a set of car leaf springs, section of leaf spring, chainsaw bar, lawnmower blade, planer blades

Miscellaneous steel items that could be used to make a tanner’s knife. Left to right, a set of car leaf springs, section of leaf spring, chainsaw bar, lawnmower blade, planer blades

Leaf springs from cars are good. If possible, find a set that is narrow. Almost every junk car has a full set of springs under it waiting to be salvage with the removal of a few bolts. The steel is temperable and already hard enough to work well enough. If you can find a narrow spring, you could grind out a tool and retain the temper if you are careful and patient.

Chainsaw bars seem like a great source of steel of a good thickness. I’ve never used them, but I understand they are carbon steel of some kind, and would already be hardened and tempered to hold their shape under hard use. Once worn, they are of no use on a chainsaw and should not be hard to find in any rural area in the states.

Lawnmower blades: are fairly common and seem like reasonable stock to work with. They have a propeller twist which would have to be removed, necessitating heating, forging and preferably re-hardening and tempering afterward.

Large files are a good source of tool steel,and could be used. I would grind or file out all the teeth though. They are too hard as is, so making a good tool with one would entail at least heating to anneal (soften), grinding to shape and preferably re-tempering. If you’re going to do all that, you might as well forge it out into a better, wider, curved tool.

Misc mild steel bars can be used, but will not hold an edge well. In a pinch, you can even use a square edge, instead of a more knife like beveled edge.

Planer blades of high speed steel make very nice scrapers. They are extremely hard, tough, rust resistant and hold an edge incredibly well. Another advantage is that since they are straight, some will have two usable edges. I use two tools or edges of varying sharpness during the processing of most hides into bark tanned or braintanned leather, so having two edges of different sharpness on one tool is great.

Tools made from planer blades. The top three are made from narrow blades and pretty short. The top two have handles made of wood covered with rubber or vinyl tubing. the third is antler handled and the fourth is a short blade tied into a slotted woo…

Tools made from planer blades. The top three are made from narrow blades and pretty short. The top two have handles made of wood covered with rubber or vinyl tubing. the third is antler handled and the fourth is a short blade tied into a slotted wooden handle, giving a longer working edge on a short blade.

The steel in planer blades is too hard to drill with normal tools, but can be ground easily enough with a 4 inch grinder, belt grinder or bench grinder. [EDIT: Melvin Beattie, one of my tanning teachers, Just wrote me the following: “Yes you can drill planner blades, files, etc.. Here are the drills that work, I have used them many times putting handles on planer blades. If I am using a hand drill start with a 1/8 “ then use 1/4” but you have a drill press just use the 1/4’’ and a good drill lube.” ] Handles for planer blades can be of two pieces of half round wood with rubber or vinyl tubing or epoxied wood (rough up and clean the metal surface before applying epoxy).

Planer blades can’t be drilled or sawn easily. To shorten, grind from both sides until thin, clamp in a vice, then break off.

Planer blades can’t be drilled or sawn easily. To shorten, grind from both sides until thin, clamp in a vice, then break off.

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Vinyl tubing with wood. Grind handle section down to 1” wide. Wood 1” wide. Vinyl tubing 1” available by the foot and many hardware stores. total length 4” to 4.5” Some will just pound tubing over the flat wide handle, but it’s very uncomfortable fo…

Vinyl tubing with wood. Grind handle section down to 1” wide. Wood 1” wide. Vinyl tubing 1” available by the foot and many hardware stores. total length 4” to 4.5” Some will just pound tubing over the flat wide handle, but it’s very uncomfortable for protracted use. The wood can be any easily split straight grained wood. There is no reason to use hardwood.

Antler handles are also very nice and may be the best option if the planer blade is only 12 to 14 inches long. You need at least 1.5” stuck into the antler, preferably more. Grind the end of the tool that will go into the handle to fit within the antler pith as shown in the photo below. Smooth and round off all sharp edges and grind the end into a slight wedge. Soak the antler overnight then boil for 15 or 20 minutes. Clamp the blade in a vice if you can and pound the antler handle onto it. Don’t drill the antler, just pound it onto the end of the blade. Allow the antler to dry completely before using it at all or you will loosen the union. Finding comfortable pieces of antler that are not too curved or too small can be a trick, but you can end up with very nice handles. Antlers vary in the amount of pith they have and general density and strength. If the antler is not too pithy, this method can also work for narrow tangs.

Antler handles set while wet and boiling hot at least 1.5” deep, deeper is better.

Antler handles set while wet and boiling hot at least 1.5” deep, deeper is better.

The width of the blade should roughly match the width of the honeycombed pith.

The width of the blade should roughly match the width of the honeycombed pith.

Grind the end of the bar to a slight wedge and round off all sharp edges.

Grind the end of the bar to a slight wedge and round off all sharp edges.

Grinding out tools: If you have a piece of stock that is already tempered, such as a chainsaw blade or car leaf spring, it is possible to grind and or file it to shape without changing the temper. If you overheat a hardened and tempered tool in grinding, it will become soft, a mistake commonly referred to as “burning” the steel. If you see colors appearing on the edge of the tool during grinding, you are flirting with danger. For something the hardness of a tanning tool, avoid letting the steel turn anything darker than bronze color, after that it will turn a purplish color, then light blue. Dark blue is pretty much dead soft, so stay well on the right side of that color. Using a high speed bench grinder, 4 inch angled grinder or belt grinder, it is very easy to overheat steel, especially when thinning the edge. Work in very short spurts, with frequent water cooling and watch for those colors with unfailing vigilance. For a tanning knife, one of two soft spots are not likely to cause you huge problems, but do your best to prevent them.

So, what is the ideal tanning knife for home users? I would definitely be a compromise in some way, but that would also be it’s strength. I have drafted up some plans and I hope to someday experiment with some prototypes. So many projects, so little energy :-/ for a fairly simple tool, I would say a good place to start would be a moderately curved, 3/16” thick, 1.5” to 1.75” wide, 11” working edge and 4-1/2 inch handles for a total of 20” long. Such a tool could be filed or ground out of a chainsaw bar, or forged from leaf spring or a large file. I would put a bevel on the back, to keep sharp for trimming skins during fleshing and other tasks. The bevel on the front concave edge should be at least 45 degrees, but thinner would be better, maybe something like 20 to 30 degrees?

As far as new knives go, there are a lot on the market. On the low end, the Wiebe 12” knife is as cheap as 20.00 before shipping from some dealers. According to Dakota Line Snares, a Wiebe dealer, “The steel on all three of the fleshing knives (8”, 12” and Elite) is 3CR13: Hardness Hrc52-55. The Elites are sharpened in the U.S.”. I think the Wiebe 12” flesher might be a very good budget option for new home tanners. Reviews on Amazon are good, but it’s hard to know what people are doing with them or how many of them are experienced enough to judge. In some pictures I’ve seen, it appears to be bent just in the middle in the classic dog leg formation common in cheap knives instead of forming a long gradual arc. In others it appears to be bent off center, or not much at all. I would not expect too much quality wise. They are produced in China with Chinese steel. A step up from that class of tool, there are the Wiebe elite, Neckers of various models, the caribou and Au Sable are in the 65.00 to 95.00 range and generally get good reviews. Many of them may be more flexible than would be ideal for a home tanner, so shop with caution. I have the Necker 600 and am not crazy about the handle design or the down sloped handle angle, but I actually haven’t used it yet. It is also more flexible than I’d prefer. The wider necker 700 looks interesting but it’s a little more costly at 95.00

Also in the mid range, there are affordable imitations of the European style knives that are sold in the U.S. According to one supplier they are stainless. The 12 inch version (which I would recommend over the 16 inch) is about 45.00 to 50.00 My guess is that the tangs will be the weak link in these English knife copies. There are also new real English Sheffield knives by J. Adams which have separately attached tangs that run all the way through the handles. They are expensive at about 145.00 for the 12” model. This is the high end of new tanning knives, outside of custom made tools. I would hunt ebay for an old european style knife before purchasing the new Sheffield knives. The problem with the antique ones is that they are usually on the long side for a home tanner. Exercise caution in shopping for new English knives as the American made copies are sometimes unscrupulously marketed as being from England or Sheffield.

Typical of old school quality, the two tools at the top have heavier, thicker tangs forge welded onto the blades, while the lower tool has a thin tang that is cut out of the same metal the body is made from. As a result, the thin, sharp edged tang h…

Typical of old school quality, the two tools at the top have heavier, thicker tangs forge welded onto the blades, while the lower tool has a thin tang that is cut out of the same metal the body is made from. As a result, the thin, sharp edged tang has split the handle. The sad thing is, it’s much easier with modern welding to weld separate tangs on.

The older tools have full thick tangs that go through the handle to the end where they are pounded over like a rivet, making for much stronger handles that put less stress on the wood. I don’t think this is one of them, but I suspect that the new pr…

The older tools have full thick tangs that go through the handle to the end where they are pounded over like a rivet, making for much stronger handles that put less stress on the wood. I don’t think this is one of them, but I suspect that the new production Sheffield, English knife copies sold in the U.S. probably have these these type of cheap flat tangs. I may try to modify this tool to make is shorter with thicker tangs and handles that come more nearly straight to the sides instead of arcing downward. I’m thinking some small metal parts and some JB Weld…

For me to buy and test all of these tools would be quite expensive obviously. I also don’t tan enough currently to put them to the kind of test needed to sort them out really well. None are what I would design from scratch, but again keep in mind that most of these are designed by and for fur trappers, whose only job typically is fleshing furs.

For used tanning knives, ebay is the best market, although they do show up on Etsy now and again. Obviously you can hunt old junk and antique stores, but you will be lucky to find one at all, let alone at a reasonable price in good condition. Avoid the cheapest and very common knives that are bent in the middle instead of in a continuous arc. These cheap tools usually have wire wraps on the handles, but some have solid ferrules. They are made of mild steel. They will work, but get something better if you can afford it. With the Wiebe 12” budget knife being tempered steel, there is hardly an excuse to buy a mild steel tool.

The common very cheap tools of mild steel like these should be avoided if you can afford something better.

The common very cheap tools of mild steel like these should be avoided if you can afford something better.

Quality vintage tools of both the old school thin wide cupped European type and the thicker narrow type tools come up on ebay, but they are often over priced. Patience is key. Look at ended auctions to see what has and hasn’t sold in the past and for how much, as well as what has been re-listed recently or lowered in price. There is a W.H. Horn and Brothers knife, just like mine, in nice condition for 85.00 plus shipping on ebay right now. Last week it was listed for 150.00

Damaged Anvil Edges, Do They Really Need to be Repaired? Work First, Worry Later!

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Damage to anvil edges is fairly ubiquitous in old used specimens.  Often the edges are quite rounded and occasionally to an extreme.  Rounding from 1/8 to 3/8 is very common.  this happens from hammer blows and I suspect also frequently from doing cold work, where the work piece is hard, whereas a hot piece of iron is quite soft.  It is possible to build the edges back up with welding rod, but the anvil face, at least close to the line where it is welded, will be softened to an extent.  An anvil face is hard for very good reason. While primitive smiths work on anything from rocks to soft iron, the anvil has progressed from that state to a well designed high performance tool.  Good anvil makers went to great pains produce durable hard faced anvils that would withstand decades of hard use. 

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There is a difference between hardness and toughness.  To find the two embodied to a high degree in any one material is a rarity.  Most hard materials are also brittle to some extent.  Tool steel is not bad at achieving both at once, but it still becomes more brittle the harder it is.  Given this limitation in material performance, brittleness is the natural cost of having an anvil face that can withstand hard use.  A good anvil will resist denting when doing cold work to some extent and will not easily be damaged by other tools, certainly not hammers, which are about the only other tools that should hit an anvil face regularly if reasonable care is exercised.  This hardness insures that the work surface remains flat and smooth.  It also gives the anvil bounce.  Being someone who continually bounces their hammer off the anvil between blows, I have a great appreciation for anvil bounce.

It may seem tempting to restore the anvil to it's original new condition, but a good argument can be made that the original square edges were more of a detriment than an advantage.  A very square edge is both more fragile and can lead to deeper damage by chipping, and it can nick up your work and damage inside corners in bending.

If the damaged edges are rounded off, they will be more useful. They are also less likely to be chip away even further.

If the damaged edges are rounded off, they will be more useful. They are also less likely to be chip away even further.

My friend once imported a beautiful European anvil.  The face was milled perfectly and the edges were very square.  I tried using it and it was leaving nicks all over everything I did.  At the very least, a slight rounding of edges will help prevent this problem.  Having used anvils now for significant time with very rounded edges of at least 3/8 inch radius, if not more, I find myself inclined to think that a significant pre-rounding of anvil edges is probably preferable and that working on an anvil with fairly large radii is rarely a problem.  If a sharper edge is needed, the tail of the anvil, or the portion of the long edges near the hardy hole, can be left more acute.   Vice jaws or any various pieces of metal that are usually lying about a smithy, or can be kept on hand for bending small radii, or modified specifically for that use.

An anvil is used hard enough to cause real damage mostly in the zone just down from the horn a little.  This is often where you see the greatest amount of chipping.  Edge damage usually stops or is minimal near the hardy hole and down to the tail.  A factor that may not be understood by many people is that the sharp delicate edge is not only vulnerable to crumbling itself from a hammer blow, but it also creates an initiation point and geometrical weakness that can lead to deeper chips.  In other words, if I smack a rounded edge, it is less likely to take a deep chip than If I strike near a squared edge.

But, how much should the edge be rounded.  My suspicion is that the best compromise would be to have continually diminishing radius put onto a new anvil edge varying from about 1/4 or 3/8 inch near the horn, down to 1/16 inch at the tail.  This would offer a wide range of radii for bending different curves into workpieces and it would protect the most vulnerable part of the anvil.  Youtuber and viewer Broadus Thompson says this is exactly what the best smiths he knows do.  Makes sense to me.  Would I do exactly that on a brand new expensive anvil?  Probably, but I'm not ready to recommend it unequivocally. 

When shopping for an anvil, do look at edge damage.  if it's light enough that you can grind it out to a 3/8 inch smooth radius or less, I would say don't worry about it.  If it's more than that, or the flat surface of the face is significantly narrowed because of encroaching chippage, then bargain hard, but don't necessarily write it off.  Primitive smiths have  and do use all sorts of substandard surfaces for forging, from rocks to mushroomed and dished pieces of metal of various descriptions, but a good quality anvil should have a quite hard face that is not easily damaged.  Any anvil face will have some dings and marks, but a good hard anvil face will be pretty smooth. if the anvil is cheap, or de-tempered by heating, say in a barn fire, you may see mushrooming, and deep dings and cuts.  Look also for cracks extending down the edge of the face or across it and to see if there is any separation between the top steel plate and the main body.  Hammers struck lightly on the anvil should bounce back and then skitter to a stop, not thud deadly against it and stop.

As to repairing anvil edges, I don't know at what point I would be willing to go there on a quality anvil. these anvils were carefully crafted and tempered, a process I can't imagine is easy.  Once heated, that anvil face will not be the same again.  If you overheat only the interface between the new metal left by the welding rod and the anvil edge, maybe it will not prove to be a problem.  But the edge would have to have a whole lot of damage before I would be willing to go there, and that damage would have to actually be significantly affect my workflow.  I've never got a chance to examine an anvil that has been repaired by welding up the edges, and then seen hard long use, so I have no idea how it would hold up.  My advice to anyone is the same.  Use the anvil.  Get to work and don't fix it unless it shows itself to be a significant problem.   Even then, think hard about it.  If you have an anvil with an intact horn, with hardy and pritchel holes, and the anvil face is as wide as a sledge hammer face and still hard and smooth, you are completely stoked compared to most of the smiths throughout history and prehistory that ever pounded on a hot piece of iron, and could consider yourself lucky. 

In some cases, the anvil face starts becoming quite narrow and I might start thinking about repair, but even then, I'd think hard about it.

In some cases, the anvil face starts becoming quite narrow and I might start thinking about repair, but even then, I'd think hard about it.

I will leave you with the quote from Practical Blacksmithing, 1889, that put me off the idea of trying to repair the edges on my anvil.

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From Practical Blacksmithing, Articles for "The Blacksmith and Wheelwright" Edited by M.T. Richardson, 1889. Read online free here!  http://www.craftsmanspace.com/free-books/blacksmithing-books.html

A Few Common Axe Handle Mistakes and What to Do About Them

On a recent snowy morning I answered a YouTube comment on axe handle breakage that led to a one take video shoot with a beautiful snowy background.  Being conceived and shot in one morning, this is just a partial snapshot of the subject.  It revolves around the specific problem of design factors contributing to handle breakage just below the axe eye.   It could easily have snowballed into a multi-part series on axe handle function and design ideas, leading to yet another video or series on user contributions to breakage; but the snow melted and I couldn't throw out that beautiful backdrop, which some people actually thought was done with a green screen!

This is viewed primarily from the perspective of American axes, which are evolved in the direction of high performance with the consequence of increased delicacy.  At least that is my current take on it.  An axe is a system composed of a handle and head which creates some inherent problems.  In America, the European axe systems that migrated here with early colonists eventually evolved toward higher performance creating narrower eyes that are inherently weaker than the wider ones they descended from.  European axe eyes seem to have remained wider for the most part, often even when copying American patterns.  In fact, I think the standard American axes are refined to a point where the handles could not be much thinner at the eye without becoming impractical for use with wooden handles, and some might argue that they already have become too thin.  That is a subject for another time though.  For now we will just look at, common problems that we see from both manufacturers and folks producing handles at home, which are easy enough to fix with some tuning up. 

While there are a lot of people that understand some of this intuitively and practice it, I don't recall seeing it spelled out anywhere.  It is my hope that this information will spread and eventually reach manufacturers, many of whom who are clearly not axe users.  Most axe handles will need work out of the factory and that is fine, but the mistakes that are greater in concept and scale are costing a lot of handle breakages at the eye that are totally unnecessary.  The essential problem is that manufacturers think they can just increase the thickness of the handle body to decrease handle breakage.  When viewed as a dynamic system though, it quickly becomes obvious that doing so puts undue stress on the thin eye portion of the axe, instead of sharing the stress across the length of the handle. At some point, continuing to thin a handle will obviously reverse that problem and create excessive vulnerability in the handle's main body.  That is really another level of this discussion though and one I purposefully avoided in this presentation.  Another issue is that there are other types of stress that are incurred from different types of use or mishap that may be more likely to break the body of the handle.  The grain of the wood and it's character is also at play.  We are dealing with a tool that sees different types of stress at different times, has inherent problems that are not entirely solvable and involves an inconsistent natural material.  Wood of even the best quality has fatal faults.  We continue to use it for the same type of reasons I continue to use vacuum tubes in my stereo and guitar amps, and that is user experience.  I personally also like wood because I can cut down a tree and make a new handle without relying on industrially produced products that I have to buy.

There is a lot of forgiving grey area in this problem and we don't have to engineer a perfect handle.  But, we do need to avoid the largest mistakes being made and if we get a handle that has them, we can tune those problems down until we have something that is more comfortable to use for long periods of time and also reduces stress on the eye.  I don't think I've seen a handle yet where the problem encountered was too little wood to work with!

Enough said here.  While this video is incomplete, it presents some ideas that I think are important and which can go a long way toward practical solutions. 

Axe Buying Checklist Series, #1 Damage and Wear

This is a series on common problems found with axes from craftsmanship to use and abuse.  There are many points, like a checklist of things to look at when picking up an axe or axe head which few people are savvy enough to know to look for all of.  After this series, you'll have that mental checklist. 

The four video segments are on:

Wear and Damage,

Symmetry,

Handles

Options and Axe Hunting

Most used axes are either worn or abused in some way.  Fortunately, they are often perfectly serviceable anyway, usually after a little work.  New axes can have various issues and seemingly perfect axes seem to be the exception. 

This links to the video playlist.  One video will come out every day for the next few days.

Axe Cordwood Challenge 2018 is On, Rules and Stuff

The Axe Cordwood Challenge for 2018 Kicks off today, Jan 1st 2018, through Sept. 1st 2018.  Here is the official video.  Also, below is the "must watch" playlist of videos for the cordwood challenge, which I hope to add to in the coming months.  Stay safe and have fun.

Axe CordWood Challenge 2017 Final Results, 12 Cords, 13 Choppers, 1,536 cu ft.

The Axe CordWood Challenge for 2017 Ended in the first week of june.  It was a considerable success.  Altogether we had 13 people finish 1/4 cord or more.  8 of us finished 1 cord or more and one person cut over 2 cords.  The total quantity of wood was probably around 12 cords, which is a closely stacked block of wood 8 feet wide, 4 feet high and 48 feet long, or 1,536 cubic feet!  The web page is here, with participant links and photos.  ACWC 2018 is on the way...

Penetration, Saturation and Coating, 3 Main Factors in Oiling Wooden Axe and Tool Handles

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Over the years I keep evolving and refining my methods and understanding of the process of oiling tool handles.  Although it is painfully simple, the obvious is not always so obvious.  I've been soaking my handles pretty deeply with oil for a long time, but still have had something of a fixation on coating them with a protective coat.  Until, I realized that a well saturated handle is it's own finish, and more.

a Coating ona a handle is a barrier between the wood and the environment.  But does it achieve that goal well, and what is the goal anyway?  The goal is to protect the handle from environmental changes in moisture basically.  Moisture swells the wood, and when it leaves, the wood shrinks.  When wood shrinks, it is stressed and those stressed can lead to cracks.   For some reason cracks seem more likely to form if the wood swells and shrinks repeatedly.  If the wood swells within the eye of a tool, the wood compresses against the hard metal of the eye walls, becoming crushed.  When it shrinks on drying again, it many shrink smaller, than it was before it expanded.  That is why soaking the eye of a tool in water when it is loose will eventually make it even looser.  A good thick coating of cured linseed oil can help prevent the entry of moisture, and anytime oil is used on a handle, some of it soaks into the wood to some depth, bringing in the factor of penetration, which must help some.  A coating is basically still very thin though and will wear off over time.  These are handles remember,  They are essentially rubbed over and over again.  And although some penetration is always occurring, the questions to ask is how much good is penetration when it is shallow and of a low saturation.

Enter Saturation.  Saturation if you look it up, basically means full or at maximum capacity.  But it is commonly used with a quantifier or clarification like partially, mostly, completely.  If I soak a handle numerous times with linseed oil, it will penetrate to a certain depth, but unless it is applied regularly and in quantity, it will have a very low saturation as the oil spreads itself out deep into the wood structure.  Eventually, it either reaches the middle or some unknown depth and starts to increase it's saturation eventually filling the wood to the point that no more will soak in.  This 2 minute video shows the process I pretty much use now.  If you get tired of adding expensive oil to a handle, try stopping for a month to let the oil in the handle cure and penetration should slow down.  Some handles will take a lot of oil.  Fortunately, oil is light.

Now if we think about a handle that is fully saturated with oil, for even 1/8 of an inch deep, let alone more, we now have something like the equivalent of a 1/8 inch coating.  But even more cool, it is actually protecting the wood itself by filling the pores and structures that water would fill.  If you leave such a handle out in the weather, water droplets just bead up on it and sit there.  Not recommended, they aren't necessarily immune to moisture, but it's telling.

droplets on a well saturated knife handle.  Two hours later they were still there, though smaller, but I have little doubt that at least the majority of missing water left be way of evaporation and not penetration.  That is a test better d…

droplets on a well saturated knife handle.  Two hours later they were still there, though smaller, but I have little doubt that at least the majority of missing water left be way of evaporation and not penetration.  That is a test better done in high humidity, not on a warm breezy morning.  This handle has probably not been oiled since it was originally treated 2 or 3 years ago.  After all, the treatment cannot wear off.

Try it on a handle and see what you think.  It is a long process and the oil is not always cheap.  many tools are also not subjected to much in the way of atmospheric changes, so it's not something we have to use everywhere.  I'm pretty sold on it though and any axe that I plan to keep and use gets the full treatment now.  Dudley cook recommends the same basically, but he maintains with an occasional coat, which I think is unnecessary if the wood on the outside of the handle is well saturated.  The wood essentially becomes it's own finish.  If the wood will ever take oil on and soak it up, do it, but it it doesn't, there is no need to keep coating it. 

I use food grade linseed oil (usually labeled as flax oil, which is the same thing) anymore and have found ways to pick it up cheap enough.  Boiled linseed oil is toxic and I think it probably dries too fast.  Prices change on amazon constantly, but this brand is usually about the cheapest, but do your own research.  I've also found flax oil at the local cheap food outlet where they send overstock and expiring stuff.  Other oils can be used as well, walnut, hemp, poppyseed and tung oil should be adequate, but I really haven't used any of them enough to say for sure.

For handles that you don't need to saturate, I recommend a thin coat of oil once or twice a year, or better, just whenever you have an oily linseed rag.  Raw linseed oil will cure, it just takes longer.  So called "boiled linseed oil" contains metallic driers and solvents that speed curing time.

I have more ideas and experiments brewing around this problem, and no doubt you'll hear more about it in the future.

Opinel No 8 Knife Modifications and Cheese Glue Experiment

The videos below are about modifying a popular knife.  This basic French Opinel No. 8 model is a lightweight, easy to sharpen pocket knife that whatever combination of reasons has stood the test of time.  I like a few things about it, and dislike a few, so I picked one up to play with and modify as necessary.  What I do like is the thin carbon steel blade, the light weight and the low cost.  It is similar to a sheath knife in size and function, but the folding design and the light weight make it an entirely different animal than most pocket knives.  It doesn't weigh down your pants or draw any attention in the pocket.  I dislike the small round handle and the shape of the tip of the knife.  I'm also not crazy about the sharp radius on the belly near the tip, but haven't yet modified that. As far as build goes, I'd say it's well put together for what it is, though there are obvious limitations and potential pitfalls, mostly in the joint "hinge" area.  The joint can only be so strong and the wood is obviously prone to swelling and shrinking.  That said, robustness is far from everything.

Many modern knives are overbuilt to my way of thinking.  I think the phenomenon is due to overthinking extreme scenarios where strength is paramount because survival of the knife is equated with survival of the person.  If functionality for everyday common tasks, or even important infrequent tasks is lost in favor of robustness, then the design has in turn lost me.  While this is far from a robust knife, and certainly may not be hurt by a dose of robustness, it does seem like it has potentially good functionality for a lot of everyday stuff and things that are important to me.  If it is damaged or worn out, it is inexpensive to replace and ditto if it is lost.  As a beginner knife, there are certain advantages to a cheap knife, but also to a not-too-robust knife.  With this knife a new user that puts it through the learning experience is not likely to be left with a false sense of security that might be imparted by an overbuilt knife.  The thin blade, weak attachment point and delicate tip are not going to withstand much abuse.  Honestly, bending and breaking tips, mangling edges, loosening joints or even outright breakage are almost an essential part of the learning curve that will serve well down the road.  Where else do we learn the limits of our knives, but by crossing them?

I've not used it enough to know if there are other things that I will really dislike about it, but will probably use it a lot and none too gently, although I'm not likely to flagrantly abuse it.  I've used enough knives and have enough opinions that I would already like to see a model that is optimized for more all around use, though modifying this one is not so difficult.  There is also a model with an unfinished handle that can be carved to suit the user and it's the same price roughly.  I haven't seen it in person, but it might solve the handle issue and even an inexperienced filer can probably take the tip down to make it more functional in 15 minutes or less with a sharp file.

The shape at the tip of the knife just has to go.  This is the most important, non-negotiable modification, requiring just a few minutes of filing.  This mod puts the tip more in line with the center-line of the knife and makes almost every task I would do with the tip easier from cleaning fingernails, to detail carving, to cutting leather and paper on a flat surface.  I can't really think of anyplace that the original tip design is going to be really advantageous for me, and it is nearly always disadvantageous rather than neutral.

The handle size and shape is not very functional.  It is round, so it turns in the hand too easily.  It is also small and doesn't fill the hand up, which can cause cramping and require excessive grip to keep it stable, especially since it is round and prone to turning.  And finally, it is hard to tell how the knife is oriented in the hand without looking at it.  The shape of the base gives some idea of the plane the blade is oriented in, but it's not like the simple automatic feel of an oval handle which drops the blade right into line where it should be.  I used some wood shavings with casein glue as an experiment toward a sort of natural glue laminate to build the back of the handle up.  Cheese glue is more or less waterproof or water resistant, otherwise I would have used hide glue.  I'm not sure I got the mix right or if this will really be water-proof/resistant.  I really need to do some formal testing and experimentation with casein glues and paints to better understand capabilities and limitations.  It's neat stuff though and was once a common glue and paint base when and where water resistance was required.

Some Slightly Ranty Advice on Expensive Boutique Axes

My main points in this video.  Expensive axes do not carry super powers and will not be greatly more effective than an inexpensive axe of reasonable quality.  Quality can matter up to a point, but an axe which does not have the best edge retention or strength is often suitable enough.  Beginners should not be seduced into buying expensive axes.  It is better to start with an inexpensive axe and beat it up, break some handles and generally learn one's way around them.  That kind of use and experience can build experience for making a larger purchase as some point.  One might find that after using some inexpensive axes and vintage axes, that they don't really want to buy any, and may be perfectly happy with vintage heads.  A lot of axe purchases are for collecting's sake alone, or maybe retail therapy or over accessorizing.  The problem is that beginners often won't know what is and isn't important and can be easily up-sold to higher cost axes on selling points that are probably not going to matter that much to them if they are even true in the first place.  Expensive axes are worth a lot and will be devalued by the clumsy use they will often see in amateur hands.  Don't learn to drive in an expensive sports car.

Bottom line, get a cheap axe and use it a lot.  Mess it up, play with modifying it, break handles, learn to sharpen, then see if you want to spend money on fancy axes.  Best case scenario, get a cheap or free axe with a handle.  Next best, get a cheap or free used head and make or buy a handle.  Third best, buy a budget line axe, like the council boys axe and hope that you get a good handle and head.

What is Sharpness, Basic Sharpening Theory, the Starting Point for Learning to Sharpen Tools

Today's video is about basic sharpening theory, looked at through the question, what is sharpness?  This information is where learning to sharpen should ideally start.  Information like which type of sharpening stones to use, techniques for using them, which tools are sharpened at what angle and so on, are not much use without understanding what sharpness is and the factors that create it.  This information illuminates the goal and by extension possible ways to go wrong in pursuing it.


Finishing the Oak Bark Tanned Deer Leather

Cute and practical, just how I like 'em!

Cute and practical, just how I like 'em!

Last winter I started a project oak bark tanning a deer skin to make leather for the axe strop project.  The project follows the collecting and processing of materials to build pocket sized sharpening strops as prizes for people who completed the Axe Cordwood Challenge.  I'm making everything I need for the strops and decided to show the whole tanning process and everything else in a series of videos.  Almost 6 months ago, I laid the prepared skin away to tan in oak bark.  It sat in there about 4 months longer than it needed to, but I took it out and finished it this week, and it looks like it turned out pretty decent.

The leather is perhaps a little light and spongy, "Empty", as they say in the tanning trade.  Emptiness results from the loss of structural proteins in the skin by chemical or bacterial action.  It isn't much of a surprise considering that I over-limed it to start with, and that it sat in a weak vegetable tanning (plant based) solution for 4 months longer than it needed to.  Those are actually the type of things that a tanner might do on purpose to a hide in order to make the finished leather soft and pliable.  That's not what I was planning though.  I would prefer a rather firm and weighty leather for this project, but that is not even the nature of deer to start with.  Deer skin, at least our deer skin here in the Western U.S. has an open, coarse-fibered, low density character that lends itself well to softened leathers.  It would have been better to move it through the process faster with shorter liming time.  But, a process that uses somewhat preservative solutions like lime and tannin, begs for procrastination.  Add that I have to make videos of it all and it's a perfect storm for not getting things done in a timely manner.  It will probably work fine for the project, but I haven't assessed it closely yet.  If it doesn't work out, I have plenty of other skins I've tanned over the years that are suitable and I got to show the process start to finish, with some of the warts and mistakes that any home tanner is likely to experience.

The next steps will be making the wooden paddles, making glue and putting it all together into the finished product.  I only need a small amount of leather for the project.  Seven brave and industrious individuals chopped one cord or more of firewood for the cordwood challenge using axes only and will receive a finished strop and a leather patch when they are made.  The balance of the leather will be stowed away with the rest of my leather cache, to wait for a suitable project.

A Tale of Three Watering Cans and a Hose Recommendation

I got two videos on watering for ya today.  One is about three quality built watering cans and watering can design.  The other one is recommending the Sears Craftsman rubber hoses on sale now and seemingly every spring at 20.00 for 50 feet.  My friend Mark Albert recommended them saying they are good for 30 years (also confirmed by a youtube viewer).  I've been using them for a few years and plan to keep buying them.   I haven't met a plastic hose that will last yet and If there is one I'll bet it's not this cheap.  If they aren't on sale in the actual store, you can ask for the online price with free delivery and they'll let you walk out with them for 19.99 each.  That's all you really need to know, so you don't even have to watch the video!