theguitarwhisperer wrote: You have a part with a formula to find the Young's Modulous for particular piece of wood chosen, which determines the final thickness for that piece of wood, but don't you reject tops that fall out of a certain range, which is based on "your" target sound?
I end up "rejecting" very few tops. I have good relationships with the suppliers I use and take a lot of trouble explaining what I want and generally that's what I get (and I thank them for taking the trouble!). That doesn't mean all the wood is the same of course, but the vast majority is usable for one type of guitar or another. For example, the tops that are going to turn out on the heavy side are going to have a lower monopole mobility, so that wood gets reserved for stage guitars with pick-ups, because the last thing you want on stage is an over-sensitive guitar that acts like a large microphone. Putting the modal frequencies where you want them gives you the fundamentals of the sound you want. Monopole mobility, simple put, just governs how much of that sound you get.
theguitarwhisperer wrote: The design book outlines the process for determining what a particular builder likes, and describes how to determine the properties of the materials that produce a sound he likes, so that he can develop his own formula for repeatability, which will then allow him to select suitable materials which may have different qualities than your sound.
Yes, that's close to right. I would say "which will then allow him to use the materials he has to produce his sound which may have different qualities to your sound".
theguitarwhisperer wrote: It doesn't look to me like you spend an inordinate amount of time shaping and chiseling braces and top thicknesses to achieve your sound, it seems you work from a plan based on material properties with some slight fine tuning after (as opposed to a set plan no matter what materials are used).
The vast majority of the time I use the top thickness predicted by the formulae in the book, just as written. With falcate bracing, the shaping of the braces is pretty straight forward. Just tapering. No scalloping or anything. About the only thing I vary is the starting height of the braces; higher when I want less sensitivity. After the CF is on, there's little you can do after the fact, without destroying the structural integrity, hence all the techniques on working on the coupled resonators (back, sides etc.) to do final trimming once the box is complete. Before completion, there's edge thinning, bridge mass etc. that can be used to trim things to intermediate targets.
theguitarwhisperer wrote: Or am I missing the point (again)?
No, I think you have a pretty good understanding of what I'm up to.
meddlingfool wrote: Am I wrong in thinking that cross grain stiffness is irrelevant to long term structural stability? It seems to me that the only time there is any cross grain stressing is when the strings are activated causing the bridge to move. The rest of the time it is all long grain in the direction of string pull. If I'm wrong, please tell me.
From the statics point of view (withstanding string tension) it is mainly the long grain stiffness that counts for long term stability. But cross grain stiffness does allow load shedding across the grain which couldn't happen if there was no cross grain stiffness. For traditional X braced guitars, the X dumps a lot of the load across the grain. For fan braced classical guitars the story is very different, because the braces are more-or-less grain aligned. So the bridge alone has the job of spreading the load laterally, which it does to a degree, but on lightly built fan braced classical guitars of any age you will almost always see significant brace print-through. On X braced SS guitars, the bracing (including bridge plate and bridge) will provide most of the cross grain stiffness, rather than the top wood itself. For fan braced classicals, the cross grain stiffness has a greater role, and will impact more on the frequencies of the higher transverse modes of vibration.
|
![[headinwall]](./images/smilies/headbangwalluf8.gif "Mad")
. Eric, you sell your self short... Ask Ervin what an Eigenmode is and he'll call you a 
