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Preparing a hollow mortise chisel

February 4, 2010 By Al Navas

One question from a reader prompts me to illustrate the process I use to prepare hollow mortise chisels before I even approach the benchtop mortiser.The process is called “tuning a hollow chisel”; it prepares the chisel for efficient cutting of the mortise, and eases penetration into the wood while minimizing burn marks. This results in smoother mortise walls, faster cutting, and better chip ejection while keeping the chisel cooler. So far I have not had to sharpen any of the drilling bits on any of the chisels.

In this photo you see the hollow chisel as received. The grinder marks are plainly visible:

Just like a bench chisel, the sides of the chisel should be lapped using either sandpaper or, as I show here, with sharpening stones. Following preliminary lapping on the 1,000-grit stone, I continue with the 6,000-grit or finer stone:

In this next photo you see how the steel begins to shine, and the tool marks have disappeared near the cutting edges – not quite ready for work, the chisel is getting close to being ready to cut:

Next I use a diamond-covered abrasive cone, to sharpen the inside surfaces of the tip of the chisel. The cone holder is part of a set available from various sources:

Careful inspection is a must, before using the chisel. Look carefully at the inside surfaces, to make sure the cone has left smooth, shiny surfaces:

Yup, that is the BenchCrafted tee shirt. And it is a shameless plug for the company that makes, along with 11 other winners, the Popular Woodworking magazine’s Best New Tools for 2009, the BenchCrafted Tail Vise. I was the lucky recipient of one tee shirt at the Valley Force conference:

To my friend Jameel Abraham, of BenchCrafted.com, and his brother Fr. John, congratulations for winning the award – it is well deserved!

Disclosure: I am a happy owner of one BenchCrafted tee shirt; I have no commercial or any other interests in BenchCrafted.com. And I love the vises they make.

— Al Navas

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Filed Under: Blog, Education, Joinery, Mortise, Sharpening, Tenon, Tutorial Tagged With: chisel, Education, hollow, Joinery, Mortise, Sharpening, Tenon, Tutorial

Tutorial: hand-cut half-blind dovetails

December 21, 2009 By Al Navas

Download this video in Quicktime format
(In Windows,  Right-click | Save Link As…)
Duration: 21:41 minutes

One of the readers of the blog recently posted the following Comment to the earlier article on More great drawers:

Could you add ‘Cutting Pins by Hand for Half-Blind Dovetails’ to the list of topics to cover? I fully get how to cut pins and tails for through dovetails, but half-blind pins I can’t seem to wrap my mind around. Is it all chisel work? Is there a sawing technique I don’t know of to cut 80% through the thickness of a board?

Torch, this article and video are my response to your request – perfect timing!

Although today it is considered the hallmark of a woodworking craftsman, the dovetail was not always held in such high esteem. In fact, dovetails used to be buried behind trim, as they were strictly a utilitarian joint; but they were used for their holding strength. Today we make dovetails by hand and with dovetail jigs, to get beautiful results; and they are beautiful!

In this episode I show in detail how to cut one half-blind dovetail on a narrow board. Although I managed to damage the fit on the first attempt, I recovered to shoot the chopping of the pins for this episode in its entirety. In the video I show in high speed the details of chopping the waste, from start to finish:

  1. Very light chiseling at the baseline, to ensure that it stays nice and clean.
  2. Once the baseline is established, more aggressive chopping can take place.
  3. But care must be taken at the half-pins, to prevent splitting of the wood; typically, a narrower chisel, and lighter chisel action are required, or the board will split.
  4. Slight undercutting at the baseline, about 1° to 2°, will result in better and easier fit of the tails in their sockets.
  5. However, too much undercutting will result in a weak joint – as a result, avoid too much undercutting. Practice, practice…
  6. Chop the bulk of the waste with the board supported by the workbench; then place the work piece in the vise, to finish with light paring cuts.
  7. Cut a very small chamfer on the back of the dovetails, to easy entry into their respective sockets in the pins board.

Gary Rogowski is a great advocate of the 5-minute dovetail, a practice session to get ready for the real job of cutting the joinery on a real project. And although the exercise is typically for through dovetails, I believe it applies just as well to half-blind dovetails. In fact, I always do a similar warm-up when I use the Leigh dovetail jig – I never start cutting dovetails cold, regardless the method. Click on this link to see the Inlaid Dovetails Tutorial videos I posted on the blog in March 2008, using the Leigh D4 dovetail jig.

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Filed Under: Blog, Dovetails, Education, Joinery, Tutorial, Video Tagged With: Dovetails, Education, half-blind, hand-cut, Joinery, Tutorial

Workholding and consistency with the Leigh FMT frame mortise & tenon jig

September 6, 2009 By Al Navas

Workholding and consistency/repeatability, in addition to the superb accuracy and precision of the Leigh FMT jig! One question from a reader prompts me to write this.

After reading one earlier post on this blog, Charles in Houston, TX, asked if I had much trouble aligning the twin mortises with the tenons properly, to ensure a)_square fit, and b)_easy and tight assembly.

I thought it would be best to show how I do it, and what I recommend, using photos. And if you are reading this and spot a problem with my definitions, concepts, or procedure, please let me know in the Comments section of this post (linked just below the title for this post), or via e-mail to sandal_woods@bbwi.net.

First, some definitions and one image:

From Class Vocabulary at Tooling University, LLC:

accuracy: The difference between a measurement reading and the true value of that measurement.

repeatability: The ability to obtain consistent results when measuring the same part with the same measuring instrument.

precision: The degree to which an instrument will repeat the same measurement over a period of time.

And from Understanding Precision and Accuracy,CHE 353M, Fall 2002 at the Wilson Research Group, the University of Texas at Austin:

accuracy-precision

The FMT is inherently a very accurate and precise instrument – it was made to be so (bottom-right on the bull’s eye image above). This means it can make a mortise and tenon joint that fits very well; and  better yet, to do so even if multiple mortises and multiple tenons are present on stretchers like the ones below:

stretcher-double-tenons-2

And the FMT can do all of this accurately, repeatably, and precisely; using calipers I can verify the thickness of the mortise and the tenons, and their length and width. Of course, I must be able to set up the machine properly to do so. But I must do the layout accurately, to get the results I want.

I want these stretchers to be centered on the legs, such that the eye cannot tell misalignment or misplacement. This is where I must also be accurate with the layout and measurements, and with positioning of the legs and the stretchers on the jig. Once I do this, I put my work on the bottom-right of the image above, close to the bull’s eye. I am helping the FMT work for me, to give me the results I need.

Now, to answer the question Charles posed: Do I have much trouble aligning the mortises and/or the tenons properly, to ensure square fit and assembly, and position on the legs? My answer is no, I have no trouble at all doing so. I take some precautions to lay out the joints; and more precautions and care to properly position not only the work pieces on the jig, but also to move and to position the jig’s sliding table to the dimensions I need. To accomplish all of this repeatably, I use the workholding capability of the jig, as I explain below.

Working with scrap pieces to set up the joinery on the FMT, I found the legs to be very heavy. In fact, I felt I needed to ensure no movement during the machining of the mortises on the legs, as the bulk of the leg would be cantilevered on one side. Enter workholding, using clamps:

workholding-full-front-view

workholding-full-left-view

Using this arrangement, I was satisfied the heavy legs would not move as I plunged the 3/8-inch router bit into the wood.

Now, some details.

First, positioning and holding the work piece is critical. This is accomplished on the FMT with clamps on the body of the jig, and on the outrigger assemblies. The jig body accepts cam-action speed clamps — the four clamps holding the leg in the photo below; on the outriggers I use any other type of clamp that won’t slip under pressure or light bumping:

workholding-clamps

The FMT ships with two Cam-Action clamps. I bought two additional ones:

workholding-cam-actionclamps

In the photo above, the vertical fence in the center is used to register one side of the stretchers when the tenons are machined. I leave it in place for the duration of all machining operations. Once set, it is extremely difficult to move; it will move if bumped hard with a heavy work piece. But I recommend double-checking its position once in a while.

It is possible to use just about any type of clamp on the outriggers. However, I recommend staying away from spring clamps, as their holding ability with large pieces, such as the heavy legs I machined in this example, is marginal at best. In the next photo, taken from behind the outrigger, I show a Bessey bar clamp holding the leg, as extra insurance from (primarily) vertical movement due to the mass of the leg:

workholding-left-outrigger-clamp

And on the right outrigger board, a FatMax Xtreme speed clamp:

workholding-rightt-outrigger-clamp

This clamping arrangement on the right outrigger is the key to accurate positioning, and re-positioning of the legs, for reproducible machining of the mortises. The end of the leg is registered against the edge of the board held tightly in place by the clamp. Barring any unforeseen problem, the board stays in place until all leg mortises are machined.

In summary:

  • The FMT is a wonderful jig that allows machining of mortises and tenons very quickly and accurately.
  • As users, we can influence the results we get with it; care in positioning a work piece reduces the chances of moving a fence or reference point.
  • As good as the FMT is, I recommend taking precautions and measures to ensure reproducible positioning and re-positioning of work pieces machined on this jig.
  • I suggest care in layout and measurements.
  • Always use scrap pieces to set up the machine properly, not your precious project boards.
  • Check to ensure the router bit has not shifted position – it is possible that, on some routers, the bit will go deeper in the collet, resulting in shallow mortises and short tenons.
  • Make sure the plunge depth on the router has not changed.
  • And finally, conduct periodic checks of the jig setup, whether stops on the outriggers, or the position and squareness of the vertical fence used to machine the tenons, or the table movement X- and Y-axis stops.

My thanks to Charles in Houston, TX, for your question. I hope your question and my answers and suggestions will also help other readers!

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Filed Under: Blog, Education, FMT, Leigh clamp, Leigh jig, Mortise, Tenon, Tutorial Tagged With: consistency, dual mortise, dual tenon, Education, FMT, Joinery, Leigh FMT, Leigh jig, Mortise, Tenon, Tutorial, workholding