About Brian Ward

I have no idea what I'm doing.

Saw Sharpening Equipment Changes

It’s been saw season around here lately. A few months ago, Lee Valley introduced their saw filing holder (or as I like to call it, “a doo-hickey that you put on the end of the file”). I bought one almost as soon as it came out. Unfortunately, an injury to my finger (not induced by woodworking) and other matters have kept me from doing much in the shop this year. However, I did get a chance recently and because I had a number of saws that needed help, I thought I’d start there.

Strangely, the last thing I did in the shop in the previous year was also to sharpen a pair of saws that ended up in Ethan’s workshop in Taiwan. I did those with the old “block of wood on the end of the file” method. For those, I also made myself a quick-and-dirty saw jointer:

This is another one of those things I should have done a long time ago. It took maybe 20 minutes.

Now, the only real reason that I bought the Veritas holder was being fed up with the million little saw file blocks that accumulate over time:

Not only do those blocks take up a lot of space when I’m not using them, but it’s hard to keep the angles consistent on both sides, and trying to keep track of them all is irritating.

The first saw I worked on was a small crosscut saw for a friend. I said that I would do this saw last year and thought I’d better get it out of my queue first. This saw also featured another first: The first time I ever hammered out a kink in a saw. I’m amazed that it worked. Then I jointed and shaped the teeth. The shaping was the first time I used the handle, and because I just used it straight across to establish a halfway decent tooth geometry, there isn’t much to write about other than that it seemed reasonably comfortable.

Then I set the teeth. Here’s another departure from the norm. I’ve been using a Millers Falls saw set for a long time, and although it works fine, it’s a little uncomfortable to use for a long period. I thought about a replacement such as the famed Stanley 42X, but that has the same kind of grip as the MF. For whatever reason, I decided that I’d try to figure out a Disston Triumph saw set (Stephen Shepherd has written about them here):

It turns out that these things are not bad at all. It’s got the height and depth adjustments that you want on a set, and has a little “gripper” to grab the saw plate just before the plunger presses the tooth into the anvil. One size doesn’t seem to fit all, though; the plunger on the one I have is much too wide for fine-tooth saws (there are smaller versions, and I think you could file down the plunger, too).

With the set done, I could apply a final light jointing, and sharpen the teeth:

The Veritas handle was still reasonably comfortable, but now that I was filing to create fleam and sloped gullets, I noticed that the rake angle setting on the handle was really no longer realistic (the protractor that sets the fleam angle guide was slightly better, but read on). So instead of trying to figure out the correct angle, I just placed the file in the gullet with the fleam and slope that I wanted, and rotated the rake angle setting until the protractor guide was parallel to the saw. However, I did take note of the rake angle setting that resulted on the file holder, because I reversed it when I filed the second half of the teeth from the other side.

The resulting saw worked as well as any I’ve filed before:

Of course, it only worked well once I glued the beautiful apple handle back together after I’d cracked it trying to take the picture above (sigh).

The next saw to work on was a new rip saw that I had on my list for a while. A while back, I had found yet another Disston No. 7 with quite a lot of blade left (but not in the greatest of shape rust-wise). After removing the rust and waxing the blade, I set about making the large teeth by removing every other tooth, converting a 7TPI saw into a 3.5TPI saw. I was a little worried about setting this saw, because I might be trying to bend every other back against its original set, and that could break a tooth. But it turned out that once I’d filed out all of the new teeth, there wasn’t much set remaining anyway, so it worked out fine:

It was during the filing of this saw that I determined that the Veritas handle was helping me file a little faster. This had nothing to do with the angle adjustments. It was because I could pull the file with my left hand as I was pushing with my right. This was possible because the file holder grips the file tightly (as opposed to the block of wood, which does not). It made a difference on this saw because there really was quite a lot to file away to create the new teeth.

But I also determined that you really do have to take the measurements on the saw file holder with a grain of salt and make adjustments as necessary. The large teeth on this saw require a large file, and this is what it looks like when the file holder is on the end:

Because there’s an increased taper at the end of the file, the file holder grips slightly askew from the file’s line. So if you want to keep this file perpendicular to the saw plate by using the protractor, you have to adjust the protractor off the zero mark. There is less of an effect on smaller files, but it’s still there.

In the end, I don’t think this matters much. It would be a tricky (but not impossible) engineering problem to fix it, but the worst part would be an additional adjustment on the handle that would be far more confusing than the ones already there.

The third saw that I filed was my Winchester crosscut saw. I did not need to shape the teeth because I wasn’t starting from scratch. I lightly jointed the saw, set the file holder angles by eye for the first half of the saw, then reversed the angles for the other half. It went quickly.

I also used the filing handle on a fourth saw, a brand new one. That one isn’t finished yet; I’ll post when it is.

A summary regarding the Veritas file handle is as follows: I don’t think that the accuracy of the rake and fleam angle measurements are important. Consistency is more important, and it works fine for that, but not any better than a paper fleam guide and blocks of wood (and remember that practice trumps all). It also won’t help you with the most important part of saw filing: keeping the tooth height uniform (just use a jointer; if you want to throw even more money at them, Lee Valley can sell you one).

For me, it does what I want it to do. There are no more blocks of wood cluttering my saw sharpening supplies, and it’s fairly comfortable to grip. The extra force that I can apply to the file stroke when shaping new teeth is a welcome bonus.

Bookshelf 2: Finished

This is sure to be one of the most anticlimactic posts ever; the second bookshelf is done and has been pressed into service.

There isn’t much to say about it other than the finishing technique that I used. Rather than building up a film to complete filling the pores as I normally do, I decided to apply only two coats of varnish over the gel stain. This was primarily to reduce the sheen even more than the diffusers in the “satin” varnish already do.

The glue-up and finishing stages were difficult because this thing is so tall. SWMBO helped me here and I’m really thankful for that. It would have been very difficult otherwise, especially given the comparatively small space I had to work in.

It also turns out that you can get away with murder with a dark stain and just a little care when you apply varnish.

I didn’t really bother to take decent photos of the finished bookshelf. It’s just not a showcase piece; it’s there to hold books so that we don’t have to put them into boxes or just leave them on the floor all over the place. Somehow, I felt that this is a piece that should blend into the background; you shouldn’t notice it’s there most of the time.

So here’s the top corner, where you can see some of the figure of this exotic yellow-poplar and the highly esoteric literary tastes of this 100% Ph.D. household:

You can barely see the half-blind dovetails at the top. (And, again, I prefer it that way for this piece.)

But wait, there’s more. If you thought that was unimpressive, wait until you see the whole thing in its final location, jammed up against a wall and next to a cheapo particleboard bookcase that I’ll make a replacement for one day:

Hmm, it’s really difficult to get those wide-angle shots to look square. Well, off to the next project.

Bookshelf 2: Glued Up

There are times when I feel like I’ve gotten nothing done, and this past month was one of them. It’s not entirely, true, though, as I have the new bookshelf glued up now:

Getting to the glue-up point was nontrivial. I had all of the joints cut more than a month ago. However, I decided that I would try to stain this thing dark, and because of this, there were some components that I should probably stain and varnish before final assembly. I spent a considerable amount of time doing so.

Staining is a nontrivial process. I read Flexner’s book about a hundred times, tried out many samples, and finally jumped in. Because the shelf is made entirely of yellow-poplar, and blotching is a problem on that wood, I decided to use a gel stain, topcoated with the usual varnish. As Flexner will tell you, gel stain doesn’t penetrate much. If you sand it, you’ll cut through in a flash. I used a full-strength coat of varnish right on top of the gel stain to build the initial coat of protection. Because the stain raised the grain and left a fairly rough surface, I wasn’t worried about adhesion problems, especially because I applied the varnish just one day after the stain. At that point, I was able to sand without worrying so much about cutting through, and a couple more coats went on after.

For me, one of the strangest things about using stain (well, pigment stain, that is) is that it seemingly went against everything I’ve learned so far. Normally, I just plane the wood smooth and apply varnish. However, a very smooth surface makes it difficult for pigment to find the nooks and crannies that it needs to stick in the wood. That might be OK if you don’t want much stain color, but I wanted a lot.

So, with this in mind, I did something that might make you cringe. After I planed the surface smooth, I sanded it with #120 grit sandpaper to rough it up a little (in the direction of the grain, of course). The strangest thing about the whole process was that the planing probably made the sanding faster.

There is another thing that I wanted to write about, but I somehow forgot to take photos. You might recall how the joint for the rear panels went in for the first bookshelf that I made; there were just a bunch of cross-members in the rear of the shelves that housed the tops and bottoms of the panels entirely. That worked, but it left me wanting more, mainly because the cross-member would stick up behind the shelf at the rear:

I came up with a way to keep the cross-member (which I like, for added strength), but hide the top of it and instead slip the panel in directly behind the shelf:

(I guess you can see the famous stain color here. Also, I didn’t bother to make the grain vertical in the panels, since it’s unlikely that anyone will really see them anyway.)

This isn’t complicated, but when put into words, it sounds complicated. There’s one rabbet on the top of the cross-member, with the high side being on the back, and then another rabbet is cut into the rear underside of the shelf, so that rear of the shelf rests on top of the cross-member. This forms a gap between the protruding end of the cross-member and the rear of the shelf, and that’s where the panel slips in.

In any case, now the hard part begins: I have to stain and varnish the rest of the piece. It’s taller than I am and barely fits in the shop.

WIA Pasadena Wrap-Up

I decided to go to WIA West this year to attend some talks and to meet some of the people I’ve chatted with over the last few years. It was great meeting all of you (you know who you are) and I hope to see you again sometime!

One of the first things I had a look at was Michel Auriou hand-stitching rasps at the Lie-Nielsen exhibit:

Watching him do it in person is remarkable. You get mesmerized at the pace he sets when punching the teeth.

One of the highlights for me was one you might not expect from someone who doesn’t do any carving and has no real plans to start–Mary May’s Acanthus leaf-carving demonstration. I’d seen her do this as Roy Underhill’s guest on The Woodwright’s Shop, but seeing it in person was something else altogether.

I can’t really put my finger on why I find this so fascinating.

Of course, speaking of The Woodwright’s Shop, I went to St. Roy’s talks. Now that guy has charisma. For some reason, I didn’t get a photo op with him.

Speaking of wild stuff, here’s a bentwood lamination clamped up in a jig from David Marks‘ talk:

You can never have too many clamps.

And yes, I did two of the events in the Hand Tool Olympics. I did the dovetail faster than I expected I would–something around 10-12 minutes, if I recall. I generally don’t do so well when I’m being watched, but luckily, when I started mine, Wilbur Pan was doing his on the other side, and then Chuck Bender went over there, and so all of the attention happily went over to that side of the bench.

That was just in the nick of time, too, because I accidentally snapped the blade to the Knew Concepts saw I was using and few people noticed (I shouldn’t have been sawing so quickly). I will say this about that saw (the 5″ woodworker’s): it’s fantastic. I’d never used it before. Using it was probably the biggest thing I got out of the whole Hand Tool Olympics thing.

I used three other tools making the dovetails. One was a new Veritas chisel, and I thought that it was really good (too bad I already have too many good chisels). Another was the Cosman dovetail saw. It worked fine–I can’t say much more than that, because nearly all dovetail saws perform the same to me when they’re sharp. I think I still like mine the best because I made it. Finally, there was a “Mongo-style” mallet. I think I like my larger wooden mallet better, but I can’t say that it didn’t work.

Jointing Narrow Boards (Yet Another Dog Incarnation), Long-Tailboard Dovetails

I decided that the break-in project for my new workbench would be a bookshelf. Because the bench can handle six-foot boards, and I can still reach things that are six feet high, I decided to make the shelves six feet high.

Two workholding problems popped up in the course of the project. One was an oldie, and the other one was new. Let’s start with the old one.

I’ve found it annoying to joint narrow boards because I usually have to make a lot of them. I have a jointer fence for my Veritas jointer, but if a board just isn’t wide enough, something always obstructs the fence because it projects below the opposite edge being planed. For some time, I’ve dreamed of being able to secure a board on the edge of the bench so that I could use my jointer fence on it. I’d been scheming on accessorizing my bench dogs a little more, and yesterday, I finally did it:

This stop is nothing more than a piece of a panel that I’ve bored two 3/4″ holes in, and stuffed two of my bench dogs through and into the holes on the bench. There’s another one with two more holes and two more dogs in the tail vise on the other end of the board. Notice how the board is slightly proud of the edge of the bench.

The whole idea is to keep the stop from rotating around in a hole. I didn’t really expect this to work–I thought that the weight of the jointer would tip the board over. But it did work. I had to ease up the rear hole a little (with a half-round rasp) to keep the front of the stop from lifting off the bench.

What’s kind of funny about this is that Lee Valley released something similar to this for planing panels today, except theirs is supposed to be used perpendicular to the way this one sits on the bench. But I’m happy with my low-profile bench dogs for planing panels.

The other difficult situation I ran into was dealing with a dovetail joint on the end of a six-foot board. To cut the tails, I extended the board off the edge of the bench, marked it, and sawed:

Then I put it in the leg vise (supported on the other side by a holdfast in the other leg) and sawed/pared the tails to completion:

Then I had to mark the pinboard. After a bit of fussing around, I came up with this:

(They’re half-blind dovetails.)

Workbench v2: Finished

The vise installations meant that the bench was nearly complete. I did some other minor preparation, such as plowing the grooves for the (as of yet nonexistant) sliding deadman and sawing the legs to length, and then I was ready to assemble. I’d never actually assembled the bench, and for a while, I wasn’t really sure how I’d do it. Thinking about it made my arms hurt.

Thankfully, I came to my senses at some point, and when I was ready, I set out two 2x4s to support the benchtop. With the help of SWMBO, I put the top upside-down on these boards:

Then I was able to put all of the legs and stretchers in for the first time. Everything fit perfectly:

Getting the bench right-side-up simply involved turning the bench on its side (there’s another board underneath the leg here to protect the roller bracket):

And one final lift to get it on its legs for the first time.

Next, I installed and fine-tuned the chops of the leg and tail vises. The description of that is in those preceding posts (meaning that, yes, I was done with this business before I posted those). It was fun to use the new bench for finishing itself! However, there was one little minor vise item that I hadn’t done, and that was to make a handle for the parallel guide pin. I’d considered making this completely spartan (basically, just a block of wood with the pin in it), but then I noticed that I had just enough wood in what remained of the piece of cherry that I’d used for the roller brackets, and made a really quick-and-dirty handle with my saw rasp:

Finally, I sawed off the uneven ends of the bench and it was done:

The front view, somewhat encumbered by the lack of space in the shop:

There are a few minor things left to do, such as the sliding deadman, the shelf, and maybe a tool rack. I can do those at my leisure.

Thanks again to Bill K. (who supplied the douglas-fir) and everyone else who helped me with this. Now it’s time to get back to making furniture.

Executive summary:

  • Dimensions: 72″ long, 18″ deep, 30″ high.
  • Profiles: Top: 3.5″ thick. Legs: 3.5″x5″. Stretchers: 3.5″x6″ (approx).
  • Wood: Old-growth douglas-fir (frame, most of top), beech (front of top, leg vise), yellow birch (parallel guide), cherry (roller brackets, parallel guide pin handle).
  • Vises: Benchcrafted Glide leg vise, Lee Valley/Veritas quick-release tail vise.
  • Knockdown construction: Captured-nut joints for legs/stretchers, angled (unglued) mortise-and-tenon joints for legs-to-top.
  • Built entirely by hand except for some lameness mentioned in the leg vise post.
  • Weight: A lot.

Workbench v2: Tail Vise

Right on the heels of the leg vise installation, I did the tail vise. I’ve never had a tail vise, but I’ve always wanted one. As it turns out, AJCP&R got me the Veritas quick-release version about two years ago (thanks again!), but it had to sit in its box for all of this time, waiting for this new bench to be made. That day finally arrived.

There’s been a bit written about the Veritas vise, but what I don’t see much out there about how versatile it is if you’re willing to play around with the shape of the chop. For example, although it’s designed to be used in conjunction with a wide front apron, that’s not necessary. In addition, you don’t need a whole 17″ of free space for overhang on the end. I broke both of these rules in my installation and I got away with it.

For those who have never seen the vise hardware, it consists of a the vise itself and a mounting plate that you attach to the bottom of your bench. The mounting plate provides the accuracy you need to keep the vise chop just far enough away from the edge of your bench to slide freely. You’re supposed to place the plate 1/4″ from the chop edge, all the way at the end of the bench. I didn’t do that. I discovered that you can get away with moving it about two inches away from the end of the bench, as long as you don’t obstruct the holes for mounting the chop (and you could even do that a little, if you’re willing to give up a bit of the vise’s travel):

The 1/4″ on the front side, however, is a (mostly) hard and fast rule. Here’s how the vise looks aligned on the mounting plate:

Notice that some of the vise hardware slips underneath the end of the bench. Also, some of the hardware on the other side (near where the leg will go, on the right side of this photo) protrudes in that area. I was able to do this because I decided to make the chop deep enough so that this little bit of hardware could slip behind the leg. You could do even more by widening the chop a bit more, but I personally wouldn’t recommend more than four inches because otherwise, you might put the hardware in the way of holdfast holes or something. As long as you don’t have anything silly up there such as a top stretcher between your bench legs, you should be fine.

OK, so the hardware fits. The next rule to break was the wide front apron. Because I designed this for a deep chop, I was able to make the inside of the chop wide (for the mounting screws), but the outside (the part that goes along the front of the bench) would be just the same 3.5″ beech that I used on the rest of the bench. Here’s a view of the chop upside down:

Oopsie on the blowout for the washer holes at the edges, but it hardly matters. At this point in the bench build, I was starting to starve for wood–I had very little douglas-fir of substantial size left. So for the backing piece, I milled and glued up two smaller pieces, and then glued those to the beech.

When it was upright and finished, it looked like this:

I had sort of a hard time trying to decide where to put the dog holes. In the end, I actually followed Lee Valley’s instructions and put the centers 1″ from the front of the bench. I could put in another row if necessary, but somehow I doubt it will be.

This vise really was a snap to install. You have to be quite careful when installing the mounting plate, but it took me longer to the make the chop with all of the milling and glue.

Workbench v2: Leg Vise

With the large frame components done, I could now work on the bench’s vises. Like everyone else in the known universe, I got a Benchcrafted Glide leg vise for the front (thanks SWMBO!).

The installation is not what I’d call easy, but it’s not ridiculously difficult, either. The first step was to put the holes in the chop (a big chunk of beech I found in the pile), and the leg.

For the chop, you’re supposed to put a shallow hole for a washer around the screw clearance hole–a 1.75″-diameter hole. The only thing I had in that size was an expansion bit. Now, those bits are not known to be terribly good even in soft woods, much less something like beech, but thankfully, this thing needed be just 3/16″ deep, so I used it mainly for the cutting spurs to get the circle.

Now, the main screw clearance holes in the chop and the leg are supposed to be 1.5″ wide, and I didn’t happen to have a No. 24 bit, either. I was all ready to wimp out and turn to the dark side, and in fact, I’d brought the chop and the leg to my friend Jasen’s place to make use of his drill press and Forstner bit. However, while preparing, I poked through his box of auger bits and found a No. 24 Irwin solid-core bit. Arrangements were made to abscond with the bit, and so mad props to Jasen for letting me do so!

I used my 14″ sweep monster (a Millers Falls #730). For those of you who have never seen a bit this large, consider the following: The brace’s chuck was just barely able to hold the bit, and only because they tapered the shaft thinner near the end.

This is the type of job that you have to break out the squares to keep the bore straight:

This is a big job, and it was no small amount of effort to turn the brace. The most difficult part of it, however, was to keep everything straight while exerting enough force.

Once the hole was through, I knocked out the waste in the outer washer hole–my Veritas mini router plane struck again:

So, when everything was said and done, I had two holes: one fancy, one not-so-fancy, both big:

After this, it was off to mark, drill, and tap the holes to attach the handwheel and screw to the chop. This is a particularly tricky job–you really need accurately lay out and drill those holes. (Thank goodness for auger bits.)

Now, a suspicious reader may have examined some of the photos above and noticed that I was using a peculiar piece of sacrificial wood underneath the chop for blowout prevention and lead-screw continuity:

This might qualify as the dumbest use of cherry in history, but notice the check (actually, compound checks) in the center. This precluded me from making a saw handle or something nice with it, but after I finished wrecking the center, I sawed off the usable wood on the sides for the Glide vise’s roller brackets:

This is sort of more silly luck than clever, I’d think–this offcut was the only thing I had around that wouldn’t require sawing up another board just for a couple of 6″ blocks.

I should also mention that with this bench, I am not trying to use a bunch of different woods to make it a showcase piece–I just want the thing to work. So, having now used three woods (the other two being douglas-fir and beech), I figured I’d use whatever I could find for the parallel guide, and I found none other than the last offcut of that nasty birch that I used as a secondary drawer wood on the second nightstand project.

Another thing that you may have noticed is that the hole in the leg isn’t horizontally centered. This is where I might eventually look like a goat, but I decided to try something a little different with this vise. Looking at the design of a leg vise and the diagonal one that Schwarz used in the “English Workbench” in his first workbench book, it dawned on me that the spot with the highest and most stable gripping power on a leg vise is directly opposite the parallel guide. On most of them, that’s in the center of the chop at the top, but that’s not where you would clamp a number of workpieces because the vise screw is in the way.

But on the diagonal vise, you don’t have that problem. So for better or for worse, I decided to put the parallel guide off to one side of the chop, and in doing so, move the “grip sweet spot” (or whatever you want to call it) off-center at the top of the chop, so that it wouldn’t be right above the screw. Here’s a shot showing the mortise for the parallel guide and a dowel leading to where that spot will be on my bench:

The off-center hole in the leg is part of the design. The idea is to place the spot with the maximum force somewhere around the area where the side of the leg meets the top.

In addition, by moving the parallel guide over to the side, I could move the guide’s clearance mortise in the leg over to the side. There, the parallel guide would slip neatly alongside the giant lower side stretcher rather than above or below, sidestepping one of the common issues when installing a leg vise.

It’s easiest to show this in the nearly finished installation:

Now, at this point, I should mention that more often than not, when you try to get clever, you end up shooting yourself in the foot (especially if you’ve never done this before). To put it lightly, this configuration does not come without difficulty. In addition to having to be extra careful with your layout, you’re also introduction an element of imbalance to a vise that really seems to have been designed to be horizontally symmetric. It goes without saying that when you go tinkering, the chop will want to lean in one direction, possibly binding the vise screw and sliding the parallel guide up against its clearance mortise.

To my surprise, it’s been working well so far. It took some fine-tuning, but the the parallel guide rollers, when set just so, seem to do a good job at supporting a good deal of the weight of the chop. The acetal bushing that comes with the Glide is also instrumental in keeping the chop inline. As an extra measure, I reduced the weight of the chop a bit by sawing off a bit of the lower right, but this may have just as well been to be able to use the offcut for something else.

I still might get burned by all of this, so let’s see what happens. I’m really due with this project–I also lucked out with the length of the vise screw and parallel guide. When vise is closed, they are about 1/8″ from hitting the inside of the rear left leg of the bench.

Now at this point, I have to make a confession: I used a power tool in the vise construction. It’s not what you might think, though. You see, the Glide vise requires you to tap threads in wood. Miraculously, I somehow already had the four taps required for the job (picked them up at a garage sale once but never used them), and I had everything I needed to drill the initial holes for all of the taps by hand. However, what I didn’t have was a tap wrench with a collet large enough to hold the two largest taps. At that point, I had to either buy another tap wrench or think of something else. The taps fit in a brace chuck, but the action on a brace can be a little bit too wobbly for this job. I decided that I didn’t have the stomach to go out and buy some (likely crummy) tap wrench for just this time, so I’d actually follow the instructions for the Glide for a change. I chucked the two big taps into my cordless power drill and threaded the holes with the dark side of the force.

It felt kind of dirty.

Workbench v2: Captured-Nut Mortise and Tenon Joints

With the legs made, it was time to move on to the stretchers. The method I used was a combination of knockdown and mortise-and-tenon joints. I first made the joints with very short tenons. These are primarily for quick alignment of the joint during assembly.

Then I bored holes square into the legs and had them come out right in the center of where the mortises were. (In reality, I did this before making the joints, but you get the idea.)

The idea is to slip a bolt into the hole and into a captured nut in the stretcher.

The trickiest step was to bore precisely into the endgrain of the tenon pieces. To do this, I assembled the joint, secured it with clamps, then went through the existing hole down into the tenon piece below:

I was surprised at how quickly the Jennings bit flew through the endgrain. I recall having a lot of trouble with endgrain when I did the first bench, but I suppose that having a halfway decent complement of bits and knowing how to sharpen them goes a long way.

Next was to make the mortise for where the captured nut would go. I hit it first with my Irwin 20 (1.25″) bit in my 14″-sweep brace (maybe you could call it the Irwin Workout from Millers Falls):

I didn’t go all the way–the captured nuts will not be visible from the outside of the bench.

Then I made one side of the hole flat for the nut and washer to register against. This was an easy job with a big “pigsticker” mortise chisel:

Finally, here is how the joint appears in the end with the bolt, nut, and washer in place:

If this looks a little ugly, it is. This side of the stretcher faces the inside, where no one can see it. Therefore, I didn’t bother with anything other than rough planing (especially important to me, given how quickly this wood dulls blades). The mortise shape is somewhat interesting, and that’s something to maybe file away. But on the other side (the face side), it looks like a normal (tight) mortise-and-tenon joint.

Next: Leg vise.

Workbench v2: Top, Legs

The past few weeks have primarily involved milling, milling, and more milling. Oh, right, there was also a trip to Pennsylvania. But after all of that excitement, I was able to glue the top. I used every medium- and heavy-duty clamp that I had for it:

Then I glued that piece of beech to the front, flattened the top, then flattened the bottom.

I’m not going to talk too much about this flattening and milling process because it was exhausting enough just to do it. The main reason was that the douglas-fir just ate up my plane blades–I constantly had to resharpen them. I’m not sure why this is the case, but it might have something to do with the hardened resin in this old wood. In any case, dull blades are next to useless on this stuff, and sometimes it takes a little while for it to dawn on you that you’re working with dull tools.

In any case, I was finally at the point where I could fit the legs. I’ve been thinking about the joints for the legs for a long, long time. I can’t say that I understand the monster through tenon joint illustrated in Roubo’s book. Schwarz only seems to say that “well, this is how it’s illustrated there, so that’s what I’m gonna use,” and that’s all fine and good, but I still don’t get it. Sure, you want a tenon, but should it really be through? That makes the top more difficult to reflatten. Plus, the through joint creates a weak point in the front left, especially if your wood over there is suspect to begin with. Roy Underhill illustrated what happens to that sort of thing at WIA.

Believe it or not, I like Underhill’s rising dovetail idea better for this kind of joint. Not that it’s any better with the weakness in the wood, but there is one property of it that I haven’t really seen anyone talk about in conjunction with a leg vise. If you think about it, because the top sinks down from the front, when a leg vise clamps something into place against any part of the top, it wedges the top into the leg.

As cool as that joint looks, I still did not want to use a through joint for my legs, so I just used angled mortises and tenons so that the top would still sink down from the front. I used a very slight angle (using the “eh, that looks about right” calculation with the sliding T-bevel), and before I started, I made a couple of guides to help. Here’s one that helped me guide my brace and bit as I wasted most of the mortise.

After boring and chopping out most of the waste, I registered the chisel face against this guide to pare out the sides at the angle necessary.

One advantage of making mortises this large is that you can shove a T-bevel into the mortise to verify that you got the side correct:

Here’s a finished joint (this time for the rear of the bench). It’s only a little more than an inch deep, and I do not plan to use glue, but I figure that the mass of the top will be more than enough to keep it in place:

If I’m wrong, I’ll use fasteners to wedge the joints into place.

It was a fine sight when I completed all four joints for the top:

These joints, however, didn’t really take much time (despite having only my fine-toothed joinery saw available to cut the tenons). Sure, I had to be a little more careful with the angles on the joints, but compared to process of preparing the top that I’d just been through, it was nothing.

Next up: Getting the stretchers in place, and installing the vises.