Posted on August 11, 2021May 29, 2025 by Dale Phillips Conical Fretboard Radiusing Jig Conical Fretboard Radiusing Jig by Mike Nealon Originally published in American Lutherie #66, 2001 How flat does the top surface of a fretboard need to be? A good working estimate would be to equate the tolerance to the gap between the top of the 2nd fret and the bottom of a string fretted at the 1st fret. The tolerance must be less than this gap or the 2nd fret will come into contact with the string. With the bottom of the open string about .01" above the top of the 1st fret and about 1/16" from the top of the 20th fret, the gap between the fretted string and the top of the second fret is about .005". Making a hardwood board flat to within .005" is not too difficult using ordinary woodworking tools. The router table and movable plate described here will produce a machine-carved surface smooth enough to require only a minimal amount of sanding or leveling. Photo 1 shows the jig fully assembled, with the router. Photo 2 shows the jig partially disasembled to show the function of the parts. The conical fretboard made with this jig has a 10" radius at the nut, flattening to a radius of 16" at the last fret. The fretboard blank is 3/8" × 2 1/2" × 21", and is flat on one side. The finished fretboards are 7/32" thick at the crown, and taper from 1 11/16" at the nut to 2 3/16" at the 12th fret (12.670" from the nut). Become A Member to Continue Reading This Article This article is part of our premium web content offered to Guild members. To view this and other web articles, join the Guild of American Luthiers. Members also receive 4 annual issues of American Lutherie and get discounts on products. For details, visit the membership page. If you are already a member, login for access or contact us to setup your account.
Posted on August 11, 2021May 28, 2025 by Dale Phillips Stalking the Wild Pine Rosin Stalking the Wild Pine Rosin by Dave Raley Originally published in American Lutherie #78, 2004 Having read Louis De Grazia’s article “Rosin Varnishes” on p. 167 of The Big Red Book of American Lutherie Volume One, and seeking an undercoat that would not turn cedar red, and also not wishing to breathe the fumes of any of the various synthetics, I set out to buy some rosin stock. Couldn’t find it. Eventually I thought to check out the pines in the yard. Sure enough, not a hundred feet from the porch there were nodules of rosin and rosin-coated bark free for the taking. We are talking about good old pine pitch. Gathering what I could from three trees, I chipped away some of the excess bark and filled a baby food jar loosely, topped it off with 190-proof ethyl alcohol and crimped aluminum foil over the top with a rubber band. The rosin dissolved in about a week and I began to make test pieces using the same stock the instrument was made of, to wit, cedar shingles. The tincture was darker than I had expected. It didn’t stain the test pieces a lot, but more than I wanted. Gotta have more rosin. A half-hour’s walk in the woods turned up enough mixed stock to overfill a quart baggie. About a third of the pines had at least a trace, and one in ten yielded worthwhile amounts. I had intended to fetch some cedar rosin while I was about it but couldn’t find any. Even the cedar that I had taken a branch off of last fall was clean. Become A Member to Continue Reading This Article This article is part of our premium web content offered to Guild members. To view this and other web articles, join the Guild of American Luthiers. Members also receive 4 annual issues of American Lutherie and get discounts on products. For details, visit the membership page. If you are already a member, login for access or contact us to setup your account.
Posted on August 11, 2021May 14, 2025 by Dale Phillips Violin Free Plate Mode Tuning Reprised Violin Free Plate Mode Tuning Reprised by Edgar B. Singleton Originally published in American Lutherie #103, 2010 In the early stages of violin building, the outline of the top and back plates are established, as is the contour of the outside surfaces. Wood is removed from the underside of each plate until the thickness of the plate is a millimeter or so thicker than expected to be in the final form. The f-holes are cut; the bass bar and purfling are installed. The time has then come to graduate the plates, i.e., regulate the thickness of the plates in an attempt to assure that the finished violin will have all of the desired characteristics. Some builders “graduate to thickness” by carefully copying thickness measurements from important old violins. They listen to the pitches of tap tones and have learned ways to adjust these pitches. They have also learned to bend and twist the plates in their hands with the goal of assessing elastic properties, using experience to relate these “felt” properties to the finished violin.1 These processes involve as much art as science and require many years of carefully evaluated experience. This experience is very difficult to articulate to the novice builder. One process associated with graduating the plates that is related to tap tones is referred to as “free plate mode tuning.”2 3 4 5 The following exposition is intended to help instrument builders, familiar with the material contained in the above references, understand the basis of free plate mode tuning as it is based on some simple physics and to provide a technique to fine tune each mode (tap tone) individually. The purpose of this paper is to give the builder a new basis on which to visualize where, and to understand why, to remove wood if one wishes to tune the free plates of a violin. Become A Member to Continue Reading This Article This article is part of our premium web content offered to Guild members. To view this and other web articles, join the Guild of American Luthiers. Members also receive 4 annual issues of American Lutherie and get discounts on products. For details, visit the membership page. If you are already a member, login for access or contact us to setup your account.
Posted on August 11, 2021May 19, 2025 by Dale Phillips Small Bow for Psalteries and Dulcimers Small Bow for Psalteries and Dulcimers by Tony Pizzo Originally published as Guild of American Luthiers Data Sheet #38, 1976 This data sheet provides plans for a small, simple bow (especially well-suited for bowed psalteries) which I am still in the process of developing. There is no need for frogs and threaded shafting, etc. as the bow hair is held tightly by means of tension. Until information on simple bow making becoms more accessible, bows such as this serve quite well. (The shape is adapted from an illustration in Lynn Elder’s “How to Play the Bowed Psaltery”, and as I developed my bow through a process of trial and error from that initial point, I don’t know how far the similarity carries from there. At any rate thanks to Mr. Elder.) Materials: bow — mahogany (or other hardwood 13" × 1 1/4" × 5/8" (or 1/2")shims — rosewood inlay strip 1" × 1/8"× 1/28"doweling — 1" lengths of 1/2" and 3/8" diameter dowelsbow hair — approx. 13" length (suggestion..“Chieftain” Nylon Bow Hair available from International Violin Co./1421 Clarkview Road, Suite 118/Baltimore, MD 21209. Become A Member to Continue Reading This Article This article is part of our premium web content offered to Guild members. To view this and other web articles, join the Guild of American Luthiers. Members also receive 4 annual issues of American Lutherie and get discounts on products. For details, visit the membership page. If you are already a member, login for access or contact us to setup your account.
Posted on August 11, 2021May 21, 2025 by Dale Phillips Frets and Fingerboard Care Frets and Fingerboard Care by Randy Stockwell Originally published in Guild of American Luthiers Quarterly Volume 7, #2, 1979 and Lutherie Woods and Steel String Guitars, 1998 Neck Shapes. I credit Leo Bidne for his perceptions of the relationship between the fingerboard bow and the string’s motion. I use heat treatment to obtain these results when the problems are severe enough. But I find that most instruments, while needing some neck curve help, are not in serious enough trouble to merit the use of heat. Most can be put in the proper curvature through careful and diligent fret dressing and tension rod adjustment (granted sufficient fret height to begin with). When the frets are too low or the curve too great, refretting is usually called for anyway. The fingerboard itself can then be reshaped to the suitable curves. Of course, if the fault is bad enough to call for a major removal of wood, I definitely resort to heat, neck resets, major neck rebuilding, and so on. Even after heat treatment, I find it necessary to finish with fingerboard and/or fret-dressing procedures. Become A Member to Continue Reading This Article This article is part of our premium web content offered to Guild members. To view this and other web articles, join the Guild of American Luthiers. Members also receive 4 annual issues of American Lutherie and get discounts on products. For details, visit the membership page. If you are already a member, login for access or contact us to setup your account.
