Why? There is a lot of momentum with wooden guitars. And it would be nigh impossible for hobbyists to machine their own axes from aluminum. Whereas even I can assemble a partscaster with relatively simple hand tools.Fumble fingers wrote:you would think if tone wood didn't make any difference aluminum guitars would be a lot more popular
LOL "as good as a US Fender.. "KenC wrote: Is it a safe assumption that the woods are different between every imported line and its U.S. counterpart? G&L lists "swamp ash" in its specifications for many Tribute instruments. Swamp ash (more properly called "green ash") grows in the eastern half of North America. I hope G&L is shipping that lumber to Indonesia for the Tributes, and not misrepresenting some local wood with a similar grain pattern. Many species of ash and alder are native to Asia, so there could be somewhat locally sourced woods with similar properties. Even if some manufacturers source local lumber for their imports, that wouldn't make it inherently inferior to lumber sourced in North America (or Europe, or where ever). It depends on the species, the conditions it grew under, and how it was handled after harvesting. I'll go out on a limb and guess that it costs no more (and very likely less) to ship African mahogany to Indonesia than to California.
That said, there is definitely low-grade lumber used in some import lines. My local Guitar Center has a Chinese Fender that arrived with a huge area of missing finish, and it's obvious that the "tone wood" is some sort of soft pine. On the other hand, if we cast a wide net to include all import lines we are including things like MIM Fenders (built a couple of hours' drive from the U.S. factory, and using many of the same woods as their U.S. counterparts), and instruments built in Japanese factories that are very highly regarded. I doubt there would be any way to make that damaged Fender at the Guitar Center sound remotely close to decent, but I wouldn't rule out getting good results by swapping out a couple of cheap components on an MIM Fender. Well, at least you could make it sound as good as a U.S. Fender...
I don't think G&L is shipping wood to SE Asia. Maybe I'm wrong, but I don't think any of the big boys ships wood into their overseas shops. At least, not for the price points we see tribute models at. I understood my Legacy Tribute to be made of locally sourced bass wood. If G&L was shipping swamp ash I'd think those models would have a significant upcharge.
I would also concede that most MIJ models shouldn't be considered in the import lineup, because as you say, that would include things like Epiphones Elitist models. Which are going to exceed the $1k in price and then we're not comparing cheap guitars anymore.
I don't get what you're saying. Sorry. My point was I don't think the subtractive affect should be significant soon after energy is put into the system (the plucking energy should dominate)KenC wrote:What you're describing here is the same concept that's at the heart of an old-school, subtractive analog synthesizer. You hit a key (or flip a switch, or push a button) and an oscillator turns on. When you release the trigger, the oscillator stops. It's instantaneous, and without further processing it all sounds pretty bad. The solution is running the signal through an ADSR (attack/decay/sustain/release) module, which lets you "swell" into the note and gradually fade it out. Dialing in an extreme value for the attack can make it sound like a "reverse tape" effect on guitar, but at very subtle levels it makes a huge difference in how pleasing the note sounds.
I don't think I could make a graphic representation here, so I'll try to describe what I'm thinking of. It's not that one particular wood could increase the "bloom" of a note or chord. Assume there is some theoretically "wide open" material that gives immediate attack - the instant the string begins to vibrate, the signal out of the guitar or bass is at maximum amplitude. Real woods aren't going to reach that maximum instantaneously. I picture it on a graph as the "wide open" material having a vertical line for the attack, while the real wood has a sloped (increasing) line. The question to me is whether all woods would have the same slope on that graph, and whether the slopes would be identical if they were plotted for different overtones in the note or chord.
I guess another way of putting it would be to say that I think the same thing happens between a guitar or bass and a subtractive synth - just that the synth's attack is shaped by circuitry while the guitar's or bass's is shaped by dampening from the materials.
I might understand how when the string energy gets very low, as at the end of its ringing out period, the dampening of supporting materials takes some affect. That is why I wonder about any effect on sustain. But I think sustain is still, by a wide margin, a function of magnetic pull and bridge material and mass.
good discussion, btw.
