Tag: Caldersmith¸ Graham

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Fall Collection 2024

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Fall Collection 2024

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Radiation from Lower Guitar Modes by Graham Caldersmith (1985)
▪ Caldersmith discusses the efficiency and pattern of sound radiation in the classic guitar produced by the four lower resonance modes, which he calls monopole, cross dipole, long dipole, and tripole.

Inside Pacific Rim Tonewoods by Steve McMinn (1993)
▪ McMinn’s lutherie wood business has turned out to be a pretty big deal. Here we gain perspective by seeing it at the very beginning.

The Great White Sitka by Jeffrey R. Elliott (1993)
▪ Holy Moby Spruce! How does one hack a log that’s eleven feet wide into 4000 guitar tops? Very carefully! By the way, this is a log that Steve McMinn rescued from the pulp mill.

Meet the Maker: Bernard Millant by Jonathon Peterson (2006)
▪ Millant is a violin maker, a bow maker, an appraiser, an author, and a man of high repute within the violin world. The depth of training behind many old-school fiddle people will astonish most guitar makers, and it makes for entrancing reading.

Meet the Maker: Dmitry Zhevlakov by Federico Sheppard (2007)
▪ This is not only the story of a Russian luthier who also makes beautiful rosettes for other builders, but is another example of how the Internet has changed the world — in this case for better.

Aluminum Sonatas: A Brief History of Aluminum Stringed Instruments in the Last 120 Years by James Condino (2007)
▪Every luthier knows how fickle and finicky the market is, so it’s no wonder that musical instruments made of aluminum didn’t catch on. Examined here are a violin, a mandolin, and a pair of bass viols. Fun stuff!

Mechanical Compliance for Soundboard Optimization by David Hurd (2007)
▪ Hurd believes that the fastest way to great instruments is science, and it’s hard to argue with such a rational man. His jigs measure the deflection of top plates while under tension, and once he carves the top and braces to the numbers he wants, he’s done. This could be math heavy, but he offers an Internet spread sheet to ease the pain.

Construction of the Colombian Tiple by Anamaria Paredes Garcia and R.M. Mottola (2007)
▪ Cross a 12-string flattop with a classical guitar and you get the Colombian tiple. The tiple has four courses of three steel strings, but on the inside, it’s a classical. Follow Alberto Paredes as he builds the instrument in this photo tour. See GAL Plan #51.

Meet the Maker: Mervyn Davis by Rodney Stedall (2007)
▪ Davis’ South African upbringing inspires a wonderful decorative sense in his instruments. He’s built a ton of different stuff but may end up best known for his wildly unique modular guitars called Smooth Talkers.

Cricket: A Reclaimed Salvage Recovery by James Condino (2007)
▪ Condino’s mandolin is made from recycled materials, mostly Douglas fir and katalox. It is unique and beautiful, and the story behind it is pretty cool, too.

Grading on the Curves: Fitting Bars and Bridges on Archtop Guitars by Steve Andersen (2007)
▪ This is a very detailed look at how a notable builder of archtop guitars fits tone bars and bridges to his instruments.

The Venezuelan Cuatro by Aquiles Torres (2008)
▪ Traditionally, this instrument is a small 4-string guitar with 14 frets clear, no frets over the body, a flush fretboard, and a large veneer tap plate. Note that the cuatro built for the article has 17 frets clear of the body. See GAL Plan #58.

The MacRostie Mandolin Deflection Jig by Don MacRostie (2008)
▪ MacRostie’s clever jig measures the top deflection of a carved mandolin under string load at any stage of its construction. It is a valuable tool within the reach of any luthier.

The “Corker” Guitar: A Sideport Experiment by Alan Carruth (2008)
▪ Carruth built a classical guitar with many small ports drilled in the side. By plugging the ports in various combinations he investigated the usefulness and physics behind them. Though this guitar did not make a believer out of him, he admits that his results are somewhat inconclusive.

Electric Guitar Setup by Erick Coleman and Elliot John-Conry (2009)
▪ Two disciples of Dan Erlewine explain the latest techniques of setting up the electric guitar. All the details and specs are there, as well as a bit of philosophy.

Dulcimer 101 by John Calkin (2009)
▪ Dulcimers are needlessly maligned and in need of advocates, and the author is a strong one. Tools and jiggery are kept to a minimum to make construction of this entry level instrument as accessible as possible.

The Guitar as a Structure and Some Practical Information on Bracing by James Blilie (2009)
▪ A structural engineer and guitar builder sees the guitar as a thing buffeted by forces and stresses.

Total Flame Out: Retopping a Harp Guitar by Harry Fleishman (2009)
▪ Harry replaces the failed soundboard on a complicated instrument with as little refinishing and other stress as possible.

Strings: The (Often) Forgotten Accessory by Fan Tao (2010)
▪ D’Addario's resident scientist Fan Tao helps us understand string issues in relation to custom instruments and customized tuning.

Practical Acoustics by Michael Cone (2010)
▪ Cone describes his advanced apparatus and method for acoustically testing classical guitars.

Meet the Maker: James Ham by Roger Alan Skipper (2010)
▪ Ham operates from a shop in Victoria, B.C. where he repairs and restores violin family instruments and constructs world class double basses.

It’s All About the Core or How to Estimate Compensation by Sjaak Elmendorp (2010)
▪ Mathematics and parameters used to address the problem of string compensation estimation.

Articles Online
Fall Collection 2024

Radiation from Lower Guitar Modes by Graham Caldersmith (1985)
▪ Caldersmith discusses the efficiency and pattern of sound radiation in the classic guitar produced by the four lower resonance modes, which he calls monopole, cross dipole, long dipole, and tripole.

Inside Pacific Rim Tonewoods by Steve McMinn (1993)
▪ McMinn's lutherie wood business has turned out to be a pretty big deal. Here we gain perspective by seeing it at the very beginning.

The Great White Sitka by Jeffrey R. Elliott (1993)
▪ Holy Moby Spruce! How does one hack a log that’s eleven feet wide into 4000 guitar tops? Very carefully! By the way, this is a log that Steve McMinn rescued from the pulp mill.

Meet the Maker: Bernard Millant by Jonathon Peterson (2006)
▪ Millant is a violin maker, a bow maker, an appraiser, an author, and a man of high repute within the violin world. The depth of training behind many old-school fiddle people will astonish most guitar makers, and it makes for entrancing reading.

Meet the Maker: Dmitry Zhevlakov by Federico Sheppard (2007)
▪ This is not only the story of a Russian luthier who also makes beautiful rosettes for other builders, but is another example of how the Internet has changed the world — in this case for better.

Aluminum Sonatas: A Brief History of Aluminum Stringed Instruments in the Last 120 Years by James Condino (2007)
▪ Every luthier knows how fickle and finicky the market is, so it’s no wonder that musical instruments made of aluminum didn’t catch on. Examined here are a violin, a mandolin, and a pair of bass viols. Fun stuff!

Mechanical Compliance for Soundboard Optimization by David Hurd (2007)
▪ Hurd believes that the fastest way to great instruments is science, and it’s hard to argue with such a rational man. His jigs measure the deflection of top plates while under tension, and once he carves the top and braces to the numbers he wants, he’s done. This could be math heavy, but he offers an Internet spread sheet to ease the pain.

Construction of the Colombian Tiple by Anamaria Paredes Garcia and R.M. Mottola (2007)
▪ Cross a 12-string flattop with a classical guitar and you get the Colombian tiple. The tiple has four courses of three steel strings, but on the inside, it’s a classical. Follow Alberto Paredes as he builds the instrument in this photo tour. See GAL Plan #51.

Meet the Maker: Mervyn Davis by Rodney Stedall (2007)
▪ Davis’ South African upbringing inspires a wonderful decorative sense in his instruments. He’s built a ton of different stuff but may end up best known for his wildly unique modular guitars called Smooth Talkers.

Cricket: A Reclaimed Salvage Recovery by James Condino (2007)
▪ Condino’s mandolin is made from recycled materials, mostly Douglas fir and katalox. It is unique and beautiful, and the story behind it is pretty cool, too.

Grading on the Curves: Fitting Bars and Bridges on Archtop Guitars by Steve Andersen (2007)
▪ This is a very detailed look at how a notable builder of archtop guitars fits tone bars and bridges to his instruments.

The Venezuelan Cuatro by Aquiles Torres (2008)
▪ Traditionally, this instrument is a small 4-string guitar with 14 frets clear, no frets over the body, a flush fretboard, and a large veneer tap plate. Note that the cuatro built for the article has 17 frets clear of the body. See GAL Plan #58.

The MacRostie Mandolin Deflection Jig by Don MacRostie (2008)
▪ MacRostie’s clever jig measures the top deflection of a carved mandolin under string load at any stage of its construction. It is a valuable tool within the reach of any luthier.

The “Corker” Guitar: A Sideport Experiment by Alan Carruth (2008)
▪ Carruth built a classical guitar with many small ports drilled in the side. By plugging the ports in various combinations he investigated the usefulness and physics behind them. Though this guitar did not make a believer out of him, he admits that his results are somewhat inconclusive.

Electric Guitar Setup by Erick Coleman and Elliot John-Conry (2009)
▪ Two disciples of Dan Erlewine explain the latest techniques of setting up the electric guitar. All the details and specs are there, as well as a bit of philosophy.

Dulcimer 101 by John Calkin (2009)
▪ Dulcimers are needlessly maligned and in need of advocates, and the author is a strong one. Tools and jiggery are kept to a minimum to make construction of this entry level instrument as accessible as possible.

The Guitar as a Structure and Some Practical Information on Bracing by James Blilie (2009)
▪ A structural engineer and guitar builder sees the guitar as a thing buffeted by forces and stresses.

Total Flame Out: Retopping a Harp Guitar by Harry Fleishman (2009)
▪ Harry replaces the failed soundboard on a complicated instrument with as little refinishing and other stress as possible.

Strings: The (Often) Forgotten Accessory by Fan Tao (2010)
▪ D'Addario's resident scientist Fan Tao helps us understand string issues in relation to custom instruments and customized tuning.

Practical Acoustics by Michael Cone (2010)
▪ Cone describes his advanced apparatus and method for acoustically testing classical guitars.

Meet the Maker: James Ham by Roger Alan Skipper (2010)
▪ Ham operates from a shop in Victoria, B.C. where he repairs and restores violin family instruments and constructs world class double basses.

It’s All About the Core or How to Estimate Compensation by Sjaak Elmendorp (2010)
▪ Mathematics and parameters used to address the problem of string compensation estimation.

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Questions: Nylon String Baritone Guitar

Questions: Nylon String Baritone Guitar

by Graham Caldersmith

Originally published in American Lutherie #102, 2010



Len Laviolette from San Diego, California asks:

I have been asked by a prominent local guitarist to build a nylon-string baritone guitar. I am intrigued, but I don’t know anything about baritone guitars. I have seen some steel strings, but never a nylon string. My questions are about scale length, top thickness (for cedar), and body size; also the availability of nylon strings in heavier gauges. Should it have a 12-fret neck?


Graham Caldersmith from Comboye, Australia responds:

I have made fifteen classical baritones since 1980 and have found that the carbon fiber/balsa lattice suits the needs of the baritone range better than traditional bracing designs. The baritone is particularly effective as an ensemble instrument where it plays the cello part of string quartets, a standard guitar plays the viola part, and treble guitars play the violin parts. Some musicians, including Slava Grigoryan and Ralph Towner, use their baritones as solo instruments, particularly for the Bach cello suites.

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 This article is part of the Articles Online featured on our website for Guild members. To view this and other web articles, join the Guild of American Luthiers. Members also receive 3 annual issues of American Lutherie and get discounts on products. For details, visit the membership page.

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Radiation from Lower Guitar Modes

Radiation from Lower Guitar Modes

by Graham Caldersmith

Originally published in American Lutherie #2, 1985 and Big Red Book of American Lutherie, Volume One, 2000



Since 1982 when I attended the Estes Park GAL Convention, and subsequently wrote about “Dissolving the Mysteries”1 (of guitar behavior — perhaps a presumptuous title), as a distant but faithful member of GAL, I have followed the developing discussions in the Quarterly about guitar top and back vibrations, how they are excited by the plucked strings and how they generate sound. At our January 1985 Australian Association of Musical Instrument Makers Convention (featuring strong GAL membership) the geometry of the lower vibrational modes of guitars and their appearance in the guitar frequency response records was keenly debated by practicing guitar makers, amply demonstrating luthiers’ adoption of scientific knowledge as part of their working repertoires.

Tom Rossing’s contributions to GALQ2, 3 the thoughtful articles by Paul Wyszkowski4, 5, 6, 7 and the monumental “Kasha Guitar Soundboard”8 by Gila Eban, together with some detailed correspondence to me from Gila on her development of the Kasha soundboard all indicate the integration of guitar physics into guitar evolution. I think such unification of science, art, technology (and good ol’ workbench cunning) is healthy and fosters excellence.

Become A Member to Continue Reading This Article

 This article is part of the Articles Online featured on our website for Guild members. To view this and other web articles, join the Guild of American Luthiers. Members also receive 3 annual issues of American Lutherie and get discounts on products. For details, visit the membership page.

MEMBERS: login for access or contact us to setup your account.

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Violin Varnish and Sealers

Violin Varnish and Sealers

by Graham Caldersmith

Originally published as Guild of American Luthiers Data Sheet #276, 1984, and Big Red Book of American Luthierie Volume One, 2000



Probably more unsubstantiated speculation has been written about violin varnish, its effects on the instrument, and the quest for the “lost” Cremonese recipe than about any other of the subtleties of the violin and its behavior.

It is true that those who have examined enough violins to appreciate the variety of varnishing systems employed by different makers in different ages cannot but admire the clear golden-brown varnish sometimes grading to a deep red that characterizes 17th–18th century Cremonese instruments. It is also true that varnish preparation and application techniques changed to more durable and convenient ones towards the end of the 18th century when faster drying oil and spirit varnishes were developed to meet the needs of the growing furniture trade, arguably at the expense of transparency and lucidity. So while bearing in mind that the early Cremonese varnishes were not unique to the violin trade, since they appear on fine furniture and wooden ornaments of the same period, we may reasonably inquire as to how important the varnishing techniques used by the Cremonese Masters were to the excellence of the violins they produced. Were the advantages of Cremonese varnishing merely passive, in that they preserved good violins into sublime maturity, or were they also active, conditioning the wood for optimal acoustical behavior?

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.

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Dissolving the Mysteries

Dissolving the Mysteries

by Graham Caldersmith

previously published in Guild of American Luthiers Quarterly Volume 10, #4, 1982 and Big Red Book of American Lutherie Volume One, 2001



We live in confusing times where progress in understanding the natural world, and in manipulating nature to our advantage has spawned an ever-changing technological environment that seems beyond our own control, and even beyond our comprehension in its scale and complexity. We are beginning to see organized reaction against technological excess, and movements towards simpler ways of living. Most luthiers are aware that the practical and traditional practice of lutherie is being analyzed and even supplemented by scientific methods, and some feel that the dignity and integrity of the traditions are therefore threatened as we redefine and dissolve the mysteries of lutherie.

I would argue that the greatest system of lutherie to date, the Renaissance-Baroque school of violin making emerged in times of devastating plague and recurring war, when the orthodoxy of creation and nature was being challenged by Galileo and Copernicus in centers not far from Brescia, Cremona, and southern Germany. In fact we know that because the centers of Baroque violin making lay on the trade routes through which the latest news in science, art, and technology flowed with trade merchandise. The great masters of lutherie would have been exposed to new concepts in vibration, pitch, and wave motion which they would find difficult to ignore in their experience of wood vibration at the workbench. How they dealt with it is not recorded, but that they produced unsurpassed masterpieces in bowed instruments is undisputed.

Contemporary luthiers live in times of social upheaval, war, and pollution, but also with a growing body of knowledge about the function of the instruments they make. It remains to be seen how we will react to this environment, but already we have seen a variety of new designs for the guitar, and the vital interaction of luthiers with pioneering guitarists.

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.