Home » Audio » General » Cryogenically treated audio components
Cryogenically treated audio components [message #26826] |
Tue, 22 March 2005 12:30 |
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Wayne Parham
Messages: 18790 Registered: January 2001
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Illuminati (33rd Degree) |
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Does it do anything? Might it actually harm components? If it offers poential benefits, what are they and why are they caused?I can understand it in materials manufacturing, sort of like tempering steel or making a hypereutectic structure. I can see how ultra low temperatures affect crystal growth during formation. I've seen papers about the correlation of properties of elastic porous microcracked conductors. And I understand the use of ultra-cool temperatures for certain materials to change their characteristics, like making a gas into a liquid or giving some meterials unique properties, like amorphous metals or superconductors. So these kinds of ideas aren't foreign to me, but I am completely at a loss about cryogenic treatments for audio conductors and components. What performance improvements can be expected?
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Re: Cryogenically treated audio components [message #26827 is a reply to message #26826] |
Tue, 22 March 2005 17:36 |
guitarplayer
Messages: 59 Registered: May 2009
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Baron |
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Disclaimer--I am in the business of cryo-treating and selling cryo-treated parts. First, let me comment on what deep cryogenic treatment is...and is not. Using dry ice or sticking parts in the freezer does not qualify as deep cryogenic treatment (DCT). DCT is the name given to the process of very slowly cooling an object down via the use of a cryogen (LN2 being the most common) to a temperature below -180C (-320F), holding the object at that temperature for a number of hours, and then very slowly allowing the object to return to ambient temperature. DCT generally takes place in a chamber of some type and is controlled entirely by computer. At these extreme temperatures, the atomic bonds start to weaken and the grain structure of metal becomes better aligned, more uniform and packed more tightly together. Metals, when drawn, or bent, or annealed, or whatever, develop stresses. These stresses are relieved by DCT. The reduction of residual stresses is why DCT is widely accepted in the tooling industry as it makes mills, or blades, or whatever, last much longer as the austenite (large particles of carbon carbide) is converted to maternsite (fine grained metal lattice structure). Tool steels really don't have alot to do with high performance audio, but the relieving of residual stresses and improving dimensional stability has many benefits for our beloved hobby. Close grain lattice structure in copper, for example, results in a smoother more detailed sound as the signal encounters less resistance (although this cannot be measured) flowing on down the road. Many of the metals employed in the manufacture of cables, PCB's, power cord ends, connectors, etc, benefit greatly from DCT. DCT has also been shown to improve the strength of plastics, so greater durability can be expected as well. However, DCT is not a cure all. It does, in my experience, improve almost everything, but some caution is required as different parts require different treatment profiles. In treating whole pieces of audio gear extreme caution is required, as is finding a treatment house that has experience treating stereo components. Front panels can break and electrolytic caps can be rendered useless if a proper profile is not employed. Properly preparing the equipment for DCT is also vital. Performance benefits are many. IMHO, the sound becomes much smoother, while becoming more detailed. The music emerges from a blacker background and dynamics are also improved. I know, I know, it sounds like I am crazy, but try it, you'll like it. Regards, Lee PS--I look forward to meeting many of you at the GPAF!
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Re: Cryogenically treated audio components [message #26829 is a reply to message #26828] |
Tue, 22 March 2005 18:24 |
guitarplayer
Messages: 59 Registered: May 2009
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Baron |
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No, nothing becomes brittle. This was a problem way back when DCT was being developed. The problem was the cool down of the object subjected to the cryogen was happening way too quickly. We all probably remember the experiments we did in HS with LN2 where one would stick a rose in LN2 and then you could shatter it. That is why the temp. must be brought down very gradually, or damage could easily occur. Brittleness was an issue with "thermal shock", a by-product of not being able to control the rate at which things cooled down. Being as we are in the age of the computer (and really cool solenoid controlled valves), this is simply not an issue anymore if proper procedures are followed. I haven't found anything yet that cannot be treated, but I'm sure I will someday. Pantyhose last longer, razors last longer, golf balls fly farther, etc... I will bring some Bic razors (that have been DCT) to the GPAF for members here. You'll have to ask for them so I know who you are, but you will be amazed at how long they last. Perhaps someone could write a review on the fine quality shave they received! Regards, Lee
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Re: Cryogenically treated audio components [message #26831 is a reply to message #26830] |
Thu, 24 March 2005 05:56 |
guitarplayer
Messages: 59 Registered: May 2009
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Baron |
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I have done tubes, makes a very nice difference in retrieval of inner detail and smoothness. I havent done trans. by themselves and compared the differences, I have experimented with whole stuffed PCB's and cryo made a positive difference on those. My son is building a gain clone, I think I'll have him build 2, 1 cryo'd and one not and compare the differences, I post results here in a month or so. Regards, Lee
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Re: Cryogenically treated audio components [message #26833 is a reply to message #26832] |
Thu, 24 March 2005 18:21 |
wunhuanglo
Messages: 912 Registered: May 2009
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Illuminati (2nd Degree) |
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It seems every claim concerning discernable effects results from treating ferrous alloys – which is probably due to the well know austenite/martensite transformation. But it really is quite unclear why there’s any benefit to BCC structured materials – in fact guitarplayer claims that it improves the conductivity of Cu, but then says the change is unmeasurable. If you can’t measure it, how do you know it happened? Though cold soaks will relieve stresses in castings of BCC materials by inducing localized cold-work, I don’t see why a simple anneal cycle wouldn’t provide the same benefits in conductors at a fraction of the cost. And again, since there’s no measurable difference in conductivity between annealed and cold-worked Cu, why bother with either?
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Re: Cryogenically treated audio components [message #26834 is a reply to message #26833] |
Thu, 24 March 2005 20:22 |
guitarplayer
Messages: 59 Registered: May 2009
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Baron |
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Sound quality! Clearly stated, IMHO, I hear a positive difference when a component has been DCT. If measurements are the only yardstick we use to determine sound quality, why listen to tube equipment? In fact, why bother with high performance audio at all? I have a 10 year Denon receiver in my garage that measures impeccably, but... Measurements don't tell the whole story. Our hearing is still the best measurement tool we have. Over the past 25+ years I have been involved in this crazy hobby, I have seen so many "treatments" or "proprietary deisgns" that, like you, I am skeptical of most of the strange tweaks that come along. In fact, I felt, a very short time ago, that cryo was a bunch of baloney...until I sat down and listened to the difference it can make. Now, not only do I own the Hair Club For Men...no wait that's something else entirely. In any event, I'll make an offer to anyone on this board. I made up two identically constructed power cords, on cryo'd, one not. I'll send them along to anyone who wants to compare them as long as they will pick up the shipping to the next person. Let me know if you are interested and I'll make a list and send the PC's out to the first person as soon as the cables are back from their world tour of Audio Circle. If you hear a difference, or don't hear a difference, post the results here. Should make for some interesting duscussions. So far, this board is a ton of fun! Lots of knowledge and pleasant people here. I look forward to meeting some of you at the GPAF. Regards, Lee
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Re:thank you for your offer [message #26835 is a reply to message #26834] |
Fri, 25 March 2005 04:16 |
wunhuanglo
Messages: 912 Registered: May 2009
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Illuminati (2nd Degree) |
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Maybe somebody else will take you up on it. Myself, I’m firmly in the objectivist camp. One point of reference I do have vis-a-vis performance of electronics after exposure to LN2 temperatures is a program I worked on for a couple of years. We built a series of electro-mechanical devices - very high precision optical encoders that incorporated digital and analog circuits mounted to 7-layer PCBs. The application was sub-synchronous altitude satellites, so we weren’t fooling around here. The electrical and mechanical performance was extensively characterized before we went cold for about two weeks on each device. What I remember is that there was no change in how the electronics performed, before or after return to RT. Our issues were with the delta-alpha problems between the steel bearings, the quartz optical elements and the beryllium structure, but the electronics were completely stable as far as anyone could measure. The stability of the electronics was a key issue because we were measuring 1 part in 2^24 (+/- 20 millionths) of a single rotation of the devices, and they had to be repositionable to that accuracy after many rotations. The point is that if the electronics drifted at all you couldn’t get back to your original position – but we always did, as measured by a laser positioning system (LUPI) external to the devices. So at the bottom line, there was no effect on the digital / analog electronics after exposure to LN2 that could be discerned by a bunch of USDA-certified Rocket Scientists. That may be not enough of an experiment to indicate what might happen to a power cord, but it’s good enough for me.
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