endorka wrote:Source of the post I can't wait to see how the windows are done!
You and me both
Eric already gave you the answer, and you got the picture here I think: While in theory, the glass should match the density of the leaf, that's more for cases where we are talking about lower mass walls, such as drywall or plywood sheathing with siding, or maybe an inch of stucco, or something like that. For high-mass walls your glass only needs to be "thick enough to do the job", as Jennifer pointed out. Which basically means it needs to have enough mass to provide the MSM resonant conditions that you need, for your target isolation number.Therefore, how thick does my glass need to be to have the same isolation properties as 215mm dense concrete?
All I can say is. WOW! Those are just darn amazing views! Totally worth the investment in large windows. The view of the loch is awesome! Congrats on such a wonderful site for your place.as I have stunning views which would be a shame to waste.
Ouch! And with heavy trucks, that is mostly low frequency rumble, and diesel engine noise. Good isolation is paramount.We have up to 8 loads of timber passing each day.
What about Nessie?! What type of noise does she make, late at night?However, the speed limit on the road is only 10mph so the noise is relatively low. The sheep, cows and birds make more noise
Those are pretty major numbers! You are wanting extreme isolation, it seems! Even more than what we planned for your other place. 70 dB is probably do-able, with deep pockets and very careful attention to detail, but 82? Hmmmm.... Man, that's in the region of "way out there". Do you really need that much?My target is as close to 82db reduction as I can manage (hence 215mm think concrete walls and concrete roof) but in reality if I can manage over 70db I should be OK.
To be very honest: use the Newell book as a door-stop, or a paper-weight. I'm not impressed by much of it, and I know of quite a few other studio designers that hold similar opinions. But the other books you mentioned are good. Not sure if you have seen this thread? https://digistar.cl/Forum/viewtopic.php?f=11&t=13I don’t have the Marshalls book but I have read Rod Gervais book from cover to cover a few times, plus Philip Newel’s book, and made some progress on Everest’s Master Handbook of Acoustics.
The math gets a little ugly, as Starlight showed, and there are actually several different regions of the spectrum that need different approaches, as shown by this simplified graph: Different physical aspects of the wall are dominant for different regions of the spectrum, so the challenge is to figure out which parts you need to be worried about: For extreme isolation, it's not an easy task... What you would need to do is to first define the number that you are aiming for: there's actually a rather large difference between 70 dB and 82 dB! Even between 70 dB and 72 dB there's a pretty big difference. As George Orwell might say: "Not all decibels are equal: some are more equal than others". At the low end, there's not much difference at all between 25 db and 27 dB isolation: hardly worth talking about. But the difference between 40 dB and 42 dB is definitely going to get your attention, when you look at the mounting piles of dollars (or euros, or pounds...). And the difference between 80 dB and 82 dB is a real eye-opener! It's only 2 dB difference in each case, but the 2 dB between 80 ad 82 is far, far greater than the 2 dB difference between 25 ad 27. Because: Logarithms! The dB scale is logarithmic, so small numbers are tiny differences, while large numbers are huge differences.The problem I am grappling with (through my lack of a detailed understanding) is how the windows perform in this system. The full system is only as good as its weakest link and it appears that the windows will be the weakest link.
Like I said: Newell's book makes a good door-stop. Here's the best use I found for my copy: It makes a really good keyboard stand at the far end of my office, right on top of the ancient cassette deck that I also haven't used in years, and brings the temporary keyboard for one of the web servers up to just the right height for comfortable use....I have always understood from Rod, Stuart and others that two leaf systems are your friend but three (or more) leaf systems are the work of the devil and should be avoided at ALL costs. However, on of the examples in the Newel book details a quadruple glazed window system. I can’t get my head round how that works
To get good isolation, you wil indeed need to get quit a bit lower. Not because you need to isolate such low frequencies (or maybe you do: logging truck wheel rumble, diesel engines groaning under load...), but because of the math. Think of it this way: if you look at a whole bunch of Transmission Loss graphs, you soon notice that they all look pretty much the same: a diagonal line, high on the right end, low on the left end, with some squiggly bits in between. (that's a very precise, highly accurate, deeply technical description, please note! ). There are variations, yes, but all TL curves follow that same basic path. All you can do with your design, is to shift the position and the angle of that "diagonal line". The more you shift it to the left, the better your isolation is. The more you shift up upwards, the better your isolation is. And the flatter you make the angle, the better your isolation is. It really is that simple! The goal is a flatter graph, shifted way over to the left, and raised up way high. The best way to achieve that, is by pouring truck loads of money into the project! But on a more serious level, for an MSM wall, the following is true: Increasing the mass pushes the curve up the page. Increasing the air gap and/or damping, pushes the curve over to the left. If you push the curve far enough over to the left, then that is pretty much the same as pushing it up! Think about it.... And "pushing it over to the left" is the same as "lowering the resonant frequency". So even though you might not need to isolate any sounds at frequencies of 15 Hz, the simple fact of attempting to do so means that ALL HIGHER FREQUENCIES ARE ISOLATED MORE! So your isolation at 35 Hz, or 80 Hz, or whatever is greatly improved, by lowering the MSM frequency, which "pushes the entire curve to the left".Had you considered aiming for a lower f0 than 22Hz?
Soundman2020 wrote:Source of the post Kevin also added the very good advice of going with laminated glass, and I'd add the additional suggestion of going for "acoustic" laminated glass, which uses a thicker, better PVB interlayer, that improves isolation even more.
Soundman2020 wrote:Source of the post What about Nessie?! What type of noise does she make, late at night?
Soundman2020 wrote:Source of the post 70 dB is probably do-able, with deep pockets and very careful attention to detail, but 82? Hmmmm.... Man, that's in the region of "way out there". Do you really need that much?
Soundman2020 wrote:Source of the post The best way to achieve that, is by pouring truck loads of money into the project!
You are absolutely right! I really do think I should wax more eloquent, and extend deeper into the details, be more long-winded. These short snappy answers just aren't cutting it....Thanks for the customarily short and snappy response Stuart
I would still do the math, to get a better idea of how much isolation you'd be getting in each case. 20mm laminate would probably be listed as "10+10", or maybe "10mm x 2". With the acoustic PVB interlayer, total thickness would be closer to 21mm, perhaps more. But the density of PVB is only about half of the density of glass, so allow for about half a mm extra in the calculations, if you want good accuracy.I reckon I can source 20mm or so fairly easily and maybe even 25mm but I'll wait until I get proper quotes and see where it leaves me.
Good advice! Sounds about right to me!Actually, I read another thread or book recently which said, "what is the best way to achieve 82db isolation to stop the traffic noise and train noise enter the mics? The answer was build your studio in a different location
Any chance you can do a real test out there? EG, get your favorite loudest rock band out there to play their wildest, while you move around the property all over (bike?) and check the levels at key places on your property line. That would give you a realistic set of data points. And take into account that sound can "bend" over long distances, when there are temperature gradients, such as commonly occur over large bodies of water... Also, wind can carry sound to places you didn't expect... but of course, there's never any wind around your place! Technically, sound refracts through the temperature gradients, causing the path to bend up or down, depending on which way the gradient goes. I doubt that will be an issue in your case, but it's good to be aware of it.Do I really need that much? Apparently not. The glen is extremely quiet and sound really carries on a still day. I thought the ambient noise level was going to be around 34db. However, I have been taking some measurements on site over the last week and it seems it is more like 40dBA or close to 50dBC. Therefore, I probably don't need nearly as much isolation as I thought I would. I still don't want to piss off the local community though so the more the merrier (within reason).
Welcome to the wonderful world of studio building! And dealing with contractors... I have yet to meet an honest building contractor, that tells you the truth up-front about his REAL estimate of how much it is going to cost you. I think the last time that a major building project came in on-time and on-budget, was when Noah built the Ark...The groundworks went well over budget and every other stage seems to be about double what the QS estimated.
I think the last time that a major building project came in on-time and on-budget, was when Noah built the Ark...
That should work. Measure the level up close ("C" weighting, "Slow" response), about a meter or so away from the generator, then get on your horse and ride around all over, taking lots of measurements. You might find some locations where it is unexpectedly loud, or unexpectedly quiet... Sound is strange...Wheresthedug wrote:Source of the post I do however have a large diesel generator on site which is damn noisy particularly at low frequencies. So I can measure that in the first instance.
Starlight wrote:Source of the post Alan, how is your studio coming along?
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