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But in every subjective listening test the speakers sound better after break in (), which right there is a big 'ol red flag.This thread has remained very civil, so I don't think it needs to be closed on account of behavior. However, nothing will change. Danny will always state drivers do break in and the difference is audible, and the rest of us will believe that the any measured change is below the audible threshold. No one's opinion will change, and nothing will get accomplished. In short, this will be a complete waste of time, and that in itself is why closing the thread isn't such a bad idea.
Danny will always state drivers do break in and the difference is audible, and the rest of us will believe that the any measured change is below the audible threshold.
I agree. While Danny refuses to acknowledge that his measurements clearly show very little change in the three parameters, in most cases, between 1 hour and 80 hours, which really is the whole point AFAIC, that's not going to change his belief that there isn't a change in sound, nor is it going to change my belief that there is or can be. So, close the thread.Paul
Danny, I was being "hypothetical" in my first post. The fact is I think this thread is talking about 2 different issues, unless I read wrong. The words "burn-in" and "break-in" ,IMHO, can't be interchanged, as they are 2 different things. Burn in is a theory I just can't buy into. Break in, I can.Wayner
Hey, I'm a fan of Dennis and Danny's work and respect both guys. It's cool to have a difference of opinion and this thread has been civil, as I expected it to be. For me, I'm not sure I buy into speaker break-in because in my experience I don't recall any of my speakers sounding noticeably better or different after 5 or 10 hours of heavy playing. This doesn't proove anything and is by no means meant qualify as scientific proof of anything......... Cheers,J
Well, this is certainly a "spirited" discussion, so here's my $0.02! Spiders take a long time to break in and constantly are changing. While the majority of the break in occurs in the first hours, the fibers continue to fatigue and break; to what degree is another discussion. There is also a"Stability of Shape" which measures a spiders deformation over a long period (think subwoofer mounted with the axis vertical and the moving mass of 250 grams). Spiders also change drastically with changes in temperature, humidity, and excursion. The last is not widely known but large excursions "untangle" the fibers. Upon rest, the fibers sort of re-entangle (is that a word?). And to confuse it more, there's cotton, acyrlic, polyether-cotton, bimax, bimax sandwich, conex, nomex and others all reacting differently to temp, moisture, shape stability, etc. A typically spider cost about $0.09; this means spiders are a commodity. And commodities leave no profit left for R&D. A "cheap" but good spider tester is $10k (True Technologies). Dr. Kurt Muller has done a little testing but all static hysteresis. Wolgang Klippel et al have done quite a bit but their instumentation starts at $30k or so. There is a need for research and our company, DYNE Analytics, is considering submitting a research paper for ALMA International's WInter Symposium in 2013; all we need is a lot of time and a lot of money! So, I guess I am saying that spiders change in the short run (a single large excursion) and the long run.
The "little" change showed a Fs drop between 6 and 10%. Vas increased between 6 and 30%, and Qts figures decrease by 5 to 10%. That is not "little" change. And changes in decay rates are easily equated to audible differences. It is an acoustic measurement made with a microphone. It verifies the audible change. Now whether you hear the changes or not is up to you. You may or may not notice a change. I never knock anyone for saying they hear no difference. I believe them. But one cannot conclude that because they hear no change that there is no change. It only means "they" hear no change. Another thing to note is that with a lot of budget level or mid-fi level receivers, CD players, etc, it will not be as easy to hear the differences.
It sure is convenient how you list only the larger changes. From the first link to your tests you show the burn-in changes results for 8 drivers, and just focusing on Fs, the range of change between 1 hour and 80 hours was 2.2% to 9.6%, with four of drivers changing 3.3% or less. The driver with the most change was one of "yours". I'm sure I can find similar smaller changes than you are acknowledging in Qts and Vas, but I'm done with this topic.Paul
Danny,You're spot on with the mechanical changes. The biggest reason there is a break-in period for drivers is the spider. The spider - for those who don't know - is a piece of cloth, permanent pressed, and dipped in epoxy. When you break in a driver, you introduce micro-cracks throughout the epoxy, which will make the spider softer.ALL mechanical systems will wear and all mechanical springs will get softer; in this case, it's by design. You break/crack a lot of the epoxy bonds (phenolics are used as well) that permeate the spider, and thus it becomes softer.We often see a 20% drop in Fs over a lengthy break-in, and we quote numbers for drivers broken in. Out of the box all our drivers measure high; beat on them for 40-50 hours, though, and they will be permanently lowered (Fs, that is).One thing to note is that it would be expected Fs would drop, Qes and Qts would drop, and Vas would increase; all these are exactly what happens when you raise Cms, which is the same thing as making the spider softer.Dan Wiggins 7-14-06
Better check your math Paul. Going down the list Fs changes are 5.4%, 9%, 4.4%, 7%, 7.8%, 9.4%, 4.6%, and 20%. On the driver with a 20% it was noted:The M-165X woofer was fresh out of the box that was from our storage area. It was quite a bit colder than the temperature in the measuring room and caused the greatest amount of change in initial measurements compared to the other drivers. The colder temperature causes the Fs to be higher, Vas to be lower, and Qts to be higher.It was probably 30degrees colder than room temperature when testing started. It clearly shows temperature having a big effect. A quote from another driver designer:
The other question is how does wear or break in or burn in know when to stop? Who said that when something breaks in, that it's a good a thing. I broke in my new jeans but soon they had holes in them. So the break in process was part of the break down process.
