HI Folks

Been reading some Douglas Adams stuff today (you know, the Hitchhikers Guide to the Galaxy bloke). He came up with a set of rules that describes our reaction to technologies. Read on......

1: Anything that is in the world when you're born is normal and ordinary and is just a natural part of the way the world works.

2: Anything that's invented between when you're fifteen and thirty-five is new and exciting and revolutionary and you can probably get a career in it.

3: Anything invented after you're thirty-five is against the natural order of things.


I think he's got it just about perfect :)

Philly

They really are that big!

These are the irons for a rather unique pair of planes I have been working on for the last 12 months. One iron is for the commissioned plane - the other for the spare “prototype�. The pair should be completed in the next few days - stay tuned...

With the banding now cut, it's time to put on the cuff. Tommy outlines how to construct the table foot and cuff then reviews some user submissions.

Hardwood floors are part of an established home?s heritage. The look of the wood is what draws a guest in and what adds warmth even on the coldest of days. When you decide to install solid wood flooring in your home or office you are not only going for that old familiar aesthetic, but you are also acknowledging that wood flooring is extremely sensible. There is a treasured stability with hard wood flooring, something that immediately elevates the value of your property. With wood flooring you give a nod to the baroque.

In addition to looking beautiful and lush, wood floors are also unquestionably good for the environment. The flooring is, in a sense, insulation between your home and the elements. This insulation is said to be sixteen times as powerful as steel and four hundred fifteen times more productive than steel. Most solid wood flooring is made in America and therefore must adhere to the nation?s strict environmental codes and ordinances.

What grain of wood you select will determine the overall character of your floor. Nothing exudes dependability like oak solid wood flooring. Within each plank you see the life of the tree: the knots and burrs. Another benefit to choosing solid oak flooring is that it does not scratch easily. With proper care, the warmth of the color will last a very long time.

Engineered oak wood flooring is a less expensive option. You get the same look and character, but the installation is much easier. In most cases nails or screws are not necessary, all that you need is a foam underlay. Since most of the engineered oak wood flooring is made in China some may argue that the quality is lower.

While some of the heartiness of solid oak wood flooring may be lost, and the value of your home or business may not increase as much, the appearance is not sacrificed and most people rarely can detect the difference. The greatest difference is in the cost and the installation. A professional with elaborate and specialized tools must install solid oak wood flooring.

A benefit for choosing engineered oak wood flooring is that you have the option of putting in the floor yourself. With the do it yourself craze at full tilt many new and established homeowners are getting excited about improvement projects that can be accomplished within a weekend.

Most major chain home improvement centers not only offer a large variety of engineered oak wood flooring, but they are now offering workshops that will guide you through the step by step process. An added bonus to doing it yourself is that now under floor heating is becoming mainstream. In the same workshop where you learn about wood flooring you can learn about the under floor heat process and how energy efficient a row of heating coils can be.

Choosing to upgrade your home or business flooring is simple, and in most cases, affordable. Going with solid oak flooring or engineered oak wood flooring is up to your taste and your wallet.

Natalie Aranda writes on home improvement. Hardwood floors are part of an established home?s heritage. The look of the wood is what draws a guest in and what adds warmth even on the coldest of days. When you decide to install solid wood flooring in your home or office you are not only going for that old familiar aesthetic, but you are also acknowledging that wood flooring is extremely sensible. What grain of wood you select will determine the overall character of your floor. Nothing exudes dependability like oak solid wood flooring.

I was in Toronto on Tuesday - visiting with some good friends - Anson and Joanne. I was also delivering this little Blackwood infilled XSNo.4. This plane has a few unique features worth noting.

The sole of this plane may look pretty typical - but the material is quite unique - it is pure iron. There is a very skilled blacksmith in town here - and during one of my visits, I asked him if there was a material that would be “rust proof�. He said he had some pure iron from France that might be suitable. So he gave me a piece to try.

This plane is going to spend a good part of its life restoring a boat on the east coast - so rust was a primary concern. I used brass pins to hold the infill in - to eliminate another potential rust area. I used a steel pin to hold the lever cap - I was concerned that a 3/16"D brass pin would not hold up over time.

The pure iron sole was a real treat to work with - much softer than the 01 I usually use. It felt more like bronze than steel. It piened beautifully! I suspect this won’t be the last pure iron sole I use.

Tommy discusses his work ethic and concern for his own workmanship after his big mistake on the pigeonhole assembly in which he had to trash three of them to ensure that they lined up on the plane correctly. He'd "rather have it right than not right." Now that they're nearly finished again, "it's like it never happened."

Part V 

One of my favorite lines in a movie was in one of the Naked Gun movies (with Leslie Nielsen) where Ricardo Montalban was playing the villain.  When asked by Priscilla Presley how he could be so evil his response was something like:

"You forget I spent two years as a building contractor!"

Of course that's in jest (?).  You know - there are, of course, good and bad contractors, and I've dealt with my share of each - and the concrete contractor I used for this project was quite unfortunately of the latter persuasion.  I was really disappointed in his work - and I even gave him a second chance the next year to pour the slab out front of the shop for me - but that's for a later entry...  If you are looking for a general contractor, or even just a "sub" contractor, make sure you check references and investigate your choices with the local builders' association.  Above all - you will need patience and perseverance to be successful.  Don't expect perfection - but be ready to stand your ground when needed - and pick your battles well.  Know what's important, and what's not. At the time, there was a shortage of available contractors for me to hire, and I was not patient... 

But first, I should go over the design of the foundation in a bit more depth...

The Design

There were two different foundation systems I looked into using.  My first consideration was to pour what's known as a "monolithic" slab - that's where the footings, stem wall (if there is one) and the finished floor are all poured at once, in one big pour...  The section through such a system looks something like this:

There are several advantages to a system such as this.. It is the most efficient system, combining the footing, wall, and slab all into a single, large system.  There is considerably less labor involved in the pour, but the earthwork needs to be done more precisely to save fill requirement.  And finally if termites are an issue in your part of the country this type doesn't allow anyplace for the nasty little buggers to penetrate from underneath.  It does have a couple of disadvantages as well...  One is that the bottom of the wall is more prone to water damage, as the top of the concrete can be only slightly above grade level...  and because of that, it also does not work as well on a sloped lot.  Though it's hard to see in the photos below, my lot slopes down from right to left (east to west) about a foot in the width of the shop.  It might not seem like much, but it is a lot of fill to bring in.   I prefer to work with the slope of the land rather than fight it...

Another disadvantage - at least for me - is that I wanted to have the entire floor of the slope 1/8" per foot from the back end to the front - a drop of about 4", so it would drain and I wouldn't have water puddling up in the center of the floor if I parked a snow-bound car inside.  That would make it difficult to frame up so it is level... This might not be an issue for you, but my experience has been to keep the space as flexible as possible - and that means uses other than woodworking.  The next owner of my shop might want to work on cars, for example - and so will I, for that matter.

The final disadvantage is I wanted to be able to hose down the slab in the main section of the shop if for some reason it needed it...    I can seal a rubber base down for some walls, but doing all would be too much.  So - it meant I would opt for the more expensive version (of course) - a stem wall type foundation.  Here's a typical section for that style of  foundation:

 

You can see that now the foundation wall is independent of the floor slab, so with this system I can slope the floor and not worry about framing the exterior walls plumb and level.  The slab at the far back of the shop would be about an inch below the top of the foundation wall - and about 5 inches below it at the front.  This works out well for the driveway slab to be poured out front of the shop - it will work out to be about the right height so the foundation wall can be above finish grade level by about 8".

You can also see why more labor is required to make it...  Instead of one pour for the entire foundation and slab, the work now has to be divided into three separate pours...  First you must form up the strip footing so it is below frost depth and pour it - then you must form up the stem walls and pour them; and then, finally, you pour the floor slab.  Three separate pours...  It uses the same or more concrete, and your contractor must have the form work to be able to pour the stem walls.  There are many concrete contractors out there that do only flat work - they don't want to invest the money into the forms required, and most often they can get away without investing in too much heavy machinery.  If you do it yourself, you can easily make your own forms, and rent your own machinery... but it's an added expense, and not a small one.  You could use the forms afterward as sheathing - but you need to coat the forms with a release agent (usually an oil) that can make it less than desirable for use as sheathing.  My neighbor rented a backhoe to do his shop, and by the time he was done with it, he'd spent $1100 or so just for it.

What determines how deep you put your foundation is set by the local building department and is what's known as "Frost Depth" - the depth at which the ground does not regularly freeze.  Freezing ground is bad for a foundation. Water expands when froze, and as a result lifts and stresses the foundation, and over time that stress can result in the foundation failing.

Frost depth in my area is about 2'-0" below finish grade.  With an 8" deep strip footing at the bottom, that means we can use a 2' deep stem wall - which will give us two feet below grade if we keep the finish grade at a maximum of 8" below the top of the stem wall.   Frost depth varies around the country... in warmer climates, there isn't one, just a requirement the footing be on inorganic undisturbed soil or compacted structural fill.  Where I grew up in the Dakotas, it was a full 4' below finish grade.  It's one reason you will see so many basements in the north vs. the south - you are required to go so deep anyway to get down to frost depth with your footing, there's no good reason not to make it just a couple feet deeper to make it a basement.

Optimally, I would have used the detail above, with a 6" wide stem wall.  Structurally, it's plenty strong to hold up the building. it also keeps you from having problems with applying the finish material - when you install the drywall (or plywood, or whatever finish material you have) the inside of the wall will line up with the concrete.  What I ended up with was more like this, however:

 

Note the foundation is 8" wide, not 6".  One other difference that is shown on that detail that I don't have - insulation.  I got none.  Nada.  It's a sordid tale - I'll let you know as I go through the photos of the construction below just how I arrived with that detail.

Strip Footings

The first job after you dig the trench for the footings is to form up for the strip footings.  It's pretty simple, really - your biggest concern is setting them at the right height.   You want the footings resting on undisturbed, inorganic soil (or compacted structural fill), just below frost level.  Your building department will be able to tell you just how much your soil can support, and thusly how big your footing needs to be.  You can check with them to find what frost level is in your part of the country.  You then want to form so the top is level and gives the footing a minimum depth (in my case 8").  You can use the excavated soil for the sides of your forms at the very bottom - but it's best to have most of it formed with footer boards to make sure the edges are held in place correctly, which will allow you to estimate just how much concrete you need.  It's always better to overdo the forms rather than under-do them, as nothing sucks more than a blowout during a pour.

The easiest way to set the level is if you have a builder's level or transit and a pole, which can be rented for fairly little money.  You set stakes in the ground at strategic points and with the aid of a helper, shoot the top of the stake, then drive it down with a sledge until it's at the right height.  Do this with each successive stake, then using a string line, a plumb bob, and batten boards, drive a pair of stakes in about every 24" or so (more or less depending how good your soil is) and nail the footer boards on the inside of the stakes - which you've placed just for that purpose, using one of the sides as a guide.  Once in place, you can reinforce the footer boards by putting nailers across the top to help keep them from spreading apart while pouring, as this crew did:

For reinforcement, mine has two #4 rebar (#4 means 4/8" or 1/2" diameter) running the length of the tooting.  An additional rebar can be added perpendicular to these every four feet or so, but I am fortunate enough to have soil with a great load carrying capacity, so it wasn't necessary.  The next step is to pour them, obviously...  but I wanted to show the photo below for another reason:

 Look at that nice, green lawn.  By the time the concrete was done - they had torn the living snot out of my yard.  I tried to keep them from doing too much damage, and I even roped off the area where my drain field was located to keep them from driving their 574 ton trucks over it - which could easily crush the pipe.  Or should I say did?  For some reason, I'm telling you - it was like trying to keep flies of of s__t.  I came home after bringing dad to a doctor's appointment to find they drove right over my little tape barrier like it wasn't even there.  Not only did this happen once, but it happened several times over the time they were there.  My drain field still works, but it's capacity has been cut about in half from what it was - no more "super" loads in the washer for us...  and a healthy repair bill someday when I do half to replace it.  The one guy I was most worried about - the kid with the skid hoe - was easily the most careful and professional and did by far the least damage of any of them.

Stem Walls

So after the footings were poured and allowed to dry for several day, the concrete guy's crew comes back and sets the forms for the stem walls:

It was at this point that I went out back and measured them only to find out they had set them for an 8" wall and not a 6" wall, like was in the drawings.   The concrete guy wasn't to be found anywhere, this was entirely done by his crew...  Ugh.  Is it really that hard to do something I ask?  It's not like I was being disagreeable, or hard to get along with, or anything.   I bring it up to him, and he's like, well - we can tear it down and do it at 6", but then I'll have to schedule it for later because that crew's already on another job.  Jeez, can't these guys come up with something more original?  In the end, I said screw it, let it be 8".  I'll just deal with it later, and let it remind me of why I should never hire bozos like this guy again (yet I don't even listen to myself - more on that in a later entry in this series).

Reinforcement was just as described in the detail above - a #4 rebar every 4'-0" vertically, and a #4 within 6" of both the top and bottom of the wall.  Anchor bolts were placed every 6'-0" and within 12" of each end of each wall.

 After they poured the stem walls, the kid with the skid hoe came back and backfilled around the stem walls, stripped the topsoil in the center, and no - I don't know why he did it that way, but it didn't take him all that long to get the sod out and down to good soil, so what the heck?  As long as it got done right, I wasn't concerned.  There wasn't enough good fill to use on the inside of the walls to support the slab, so I ordered structural fill brought in to bring the sub-base up to grade.  They brought in a type of fill that doesn't require compaction, which I think is interesting - it's a product I was familiar with but had never seen it done before, a material called CLSM (Controlled Low-Strength Material).  It looks mostly like really sloppy wet sand, and it is brought in in a concrete truck and poured out and leveled almost like concrete. 

It's usually made up of a mixture of portland cement, fly ash, and aggregate mixed with water.  Lots of labor saved in that you don't have to compact it, and it can be put in place so very quickly...  I did need 2-1/2 truckloads of it, each costing $200 though (I ended up having to buy 3 truckloads full)  I had the remainder put out so I could use it as fill for under the driveway slab that would eventually be placed out front of the shop.

So, I think in my case, I paid dearly for it.  But at least it was ready for the floor.  I did have one problem - there was a lot of soil left over in a big pile - sod, rocks, organic soil - pure garbage to me and I had nowhere to put it.  The kid with the backhoe offered to take it - seems he was filling some ditch on his property out in the back woods, and could put it there. He loaded it and hauled it out himself, so there was some consolation. I rewarded him by getting him to put in a gravel driveway back to the shop and to redo the one out front.  He did a particularly splendid job, for a fair price.

For more information on CSLM, visit the Portland Cement Association's web site.

The Floor Slab

So - another appointment for dad, and I knew they were going to pour the floor - when I got back, this was the scene:

It was a good thing I got back when I did...  I noticed two things were completely wrong.  First - there was no insulation laid down around the perimeter.  Second - he hadn't dug out for the two pier footings I would need for the two columns I had designed for the structure.  You know, I don't think he actually ever looked at the drawings...  Guess there might have been too much information there for him to handle.  Anyway, it was already too late for the insulation, but I did at least get him before the concrete had reached where the pier footings were to go - and stood there while he dug them out and made sure they were the right size, even as the concrete was flowing closer to the pit.  Essentially, the pier footings can be poured as a part of the floor, like a monolithic slab would be - so it's fine if done that way.  It would have sucked if he hadn't done them though - I wouldn't have known about it, and would have wondered why the floor slab cracked so badly around the columns later...

At long last - I had a foundation on which to build my shop.   Woohoo!  The rest would be all up to me and me alone.

 

Up next - walls!

It’s time to celebrate our big milestone – 5,000 LumberJocks!
You’re the best group on the Internet – THANK YOU!

Go have a few beers ;)

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As a special thanks to our “LumberJocks Welcoming Committee” I decided to send a LJ Shirt to each of the following five random greeters in our welcoming committee:

• Scott Bryan
• Karson
• Rikkor
• Todd A. Clippinger
• Grumpy

I am really happy with how they came out. I've discovered a couple of ways to make cleaner and more repeatable cuts on a couple of the angled pieces. Time to get back to work...

Breaking out the chisels, Tommy demonstrates how he cut the patterns into the door's inner edge. Then, with the doors ready to go, he shows how he will set the hinges. The morning had been somewhat chaotic in Tommy's shop, but now that all his visitors have left he's determined to get focused--and get finished!

Tommy hits a "pretty big milestone" when he glues the first drawer together. Knowing how crucial setting the glue is after many long, labor-intensive hours getting the wood ready, he tries not to "freak out." When he attaches all four pieces together and clamps them, he's pleased because the drawer looks square and totally flat. Here's hoping the rest go as well.

Tommy reviews how the doors are coming along as well as his plans for them. With the doors and hardware installed on the secretary, he concentrates on cleaning out the corners then shows how he centered the door overlap. Tommy's getting closer and closer to completion of the project!

Here's another interview that we got a chance to do at the this years The Woodworking Show in Atlanta, GA.

In this video we interview Mark Sillay. Mark is a member of the Georgia Association of Woodturners. He also teaches at John C. Campbell Folk School in Brasstown, NC.

Mark uses a unique grind on his spindle gouge and shows how he sharpens it. If you've never seen the Jool Tool sharpening system, you're going to be impressed. We have a whole separate interview with the CEO of the Jool Tool in an up coming interview.

After sharpening his spindle gouge, Mark proceeds to cut a very delicate finial out of a piece of 2x4! You gotta see this to believe it.

Enjoy!

Craig Stevens

www.WoodworkersResource.com

P.S. Don't forget to go to our website to sign up for our newsletter and to receive updates on when we release new videos.

www.WoodworkersResource.com

Everybody has their little secrets. Mine is moonshine. Moonshine works for me. It allows me to focus, to get the job done, in fact, without moonshine, I'ld have to find...

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With the drawers fully assembled, Tommy shares a insider's tip on protecting the finish of the exposed inside surface of the case where the drawers have a tendency to rub as they slide in and out. To offset the outside drawers ever so slightly, Tommy glues a thin strip of veneer to the outside wall of the drawer cubby interior. Once applied, the veneer provides just enough breathing room for the drawer to glide smoothly without touching the case wall thus preserving the finish.

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Green wood chair making class by American master craftsman Drew Langsner takes place this autumn at Gifu Academy.
We make a traditional ladderback chair out of local green wood, using only hand tools.


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Mr. Langsner is a world's famous woodworker who has been pursueing his career for more than thirty years. He runs various craft courses at his Country Workshops. He is the author of 'The Chairmaker's Workshop'.

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The chair making class consists of part A and B.
On part A we cleave logs to get chair parts, steambend and shape them.
On part B we drill mortises and cut tenons, assemble and weave the seat.
You can book either part A or B, or both.
The tuition is 24,000 yen for each part. Room and board is not included.
We accept eight bookings for each part. Contact Japan Green Woodwork Association.

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Green wood chair making class by American master craftsman
Instructor: Drew Langsner
Venue: Forest Workshop, Gifu Academy of Forest Science and Culture

Part A 27-29th September 2008
Part B 18-20th October 2008
9:00-18:00

It?s been a few months since I completed the Greene & Greene chest project and two since I finished the bench for my wife for Christmas. Since I?ve been busy with other things but it?s time to get going on a new project. Next up is a simple shaker style desk for my mother-in-law.

I bought the lumber, some nice cherry, at a local lumber mill just after New Year. It sat acclimating in my shop for about a month before I began milling. At this point I?ve made the legs (though they aren?t yet tapered) and gotten a good start on the aprons though I still have to make the tenons.

As it is a Shaker piece, the design is simple. In fact, the most interesting parts are hidden construction details (the top rail dovetailed into the legs and lower rail attached with twin tenons). It should be a fun project.

funiture welding

People have written me asking for more information about the little osage orange plane in the side bar, so here are some images and measurements in case you would like to make one yourself.

Body: 4.5" long ? 2" high ? 1.125" wide
Opening: .84375" wide (13.5/15")
Wedge: 2.625" long ? .8125" (13/15") wide ? 12 degree bevel to fit
Blade: 3.625" long ? .8125" wide ? .125" thick

Bed Angles:
45 degree bed ? 57 degree shoulder (the portion of the sides that hold the wedge in place) ? 52 degree front bed

The plane is one piece of wood, so the most difficult part is chiseling out the wood inside the opening and being careful to ensure that the bed is perfectly flat. Layout your angles on the outside of your workpiece and transfer the angles across the top, down the other side, and on the plane's sole. Then, just keep an eye on your progress to make sure you maintain those angles as you chisel out the opening.

Other woods that make good planes are applewood, maple, bloodwood, cocobolo, and many other dense hardwoods.

Growth ring orientation, according to David Finck, author of Making & Mastering Wood Planes, is unimportant.

Marking layout lines with a pencil always leads to "Do I split the line or save the line?" Here's a way to narrow the line, but still be able to see it, and resolve the issue.

Use a piece of sandpaper to create a flat side on your sharpened pencil then ride the flat edge along your straightedge. The line you create will be the exact the location of your cut. I mark dovetails this way and transfer lines from pins to tails. It is surprisingly precise. It does not, however, allow you mark lines in tight quarters, as in transferring marks from tails to ultra-thin dovetails. For that, you need a thin-bladed marking knife. (Or, cut your pins first...but that's another post.)

Using a pencil with a bevel edge leaves a mark that is easier to see than a knife mark. Sometimes you need that, especially if you've reached that 40+ year old bifocal age (raising hand).