Talk:List of thermal conductivities

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Cleanup-list Tag

Latest comment: 14 years ago4 comments4 people in discussion

The condition of this list has previously been discussed in Talk:Thermal conductivity#Example values for common elements OK?. It got some work done, but I think I need to be more specific:

• The Electrical Conductivity column, which is more acceptable on a page dedicated to this list, has far too many expressions for the same unit.
• Some materials have their composition described in the Material column, which makes that column hard to scan -- this information could go in the notes.
• Some material compositions link to oxides rather than the elements, which suggests something different from what the text itself says.
• The reference superscripts make the table a burden to read, and the way they've been used inconsistently between the conductivity and temperature columns makes them unhelpful.

Also, in an ideal world, the temperature would be specified once, and all materials would be measured at that temperature. Specifying two ranges isn't at all clear, most particularly when the references for the ranges aren't consistent with the references for the conductivities. This problem has stopped me from making a separate Reference column to clarify the table. --ToobMug 13:55, 10 February 2007 (UTC)Reply

I believe mixtures have variable compositions so there is a range of thermal conductivities. However PURE compounds should not have this problem. AquaDTRS (talk) 03:35, 2 February 2008 (UTC)Reply

Regarding the reference superscripts: Perhaps they should be moved to the end of the numbers, e.g. 12345^g instead of ^g12345. The table does not sort properly if they are written with preceding superscripts. I will make this change and if I am violating some wikipedia rule, please let me know here and revert it. 208.79.244.67 (talk) 18:49, 7 February 2008 (UTC)Reply

Should a "Typical" k be added to allow for sorting?Jim1138 (talk) 06:46, 19 July 2009 (UTC)Reply

Request for data

Latest comment: 8 years ago6 comments5 people in discussion

First, a vacuum should be included for reference.

Second, carbon dioxide and methane gases should be included too. —Preceding unsigned comment added by 69.229.123.10 (talk) 06:55, 1 December 2009 (UTC)Reply

As far as I know, vacuum does not conduct heat, although it can transfer it by radiation. Platinum should be added for its use in temperature measurements. YBCO would be a nice (but challenging) addition. —Preceding unsigned comment added by 79.182.0.21 (talk) 01:38, 18 July 2010 (UTC)Reply

Heat transfer through the vacuum does not conform to Fourier's law. For most materials, energy flux between two planes is proportional to cross section and inversely proportional to the distance between the plates (hence the thermal conductivity coefficient has m^-1 in the dimensionality). The flux between two close parallel planes in the vacuum is not related to the distance between them (to the first order). Instead it is governed by Stefan-Boltzmann law, ${\displaystyle J\approx 4A\sigma T^{3}\Delta T}$. At room temperature, ${\displaystyle J\approx cA\Delta T}$, where c = 5.7 W/(m^2 K). --Itinerant1 (talk) 22:05, 4 August 2012 (UTC)Reply

I couldn't avoid the vacuum. Apart from that and with respect to the thermal conductivity of platinum I had the impression that the way that a platinum resistance thermometer became any good is more involved with the electrical resistance of a platinum wire as a function of its temperature. Isn't that how it works?Patriot1423 (talk) 05:06, 14 April 2016 (UTC)Reply

Some of the temperatures cited in the properties table are negative(in kelvin), that has to be a mistake clearly. someone should take a look at it. — Preceding unsigned comment added by 59.94.65.124 (talk) 16:32, 30 August 2013 (UTC)Reply

I always thought that those Kelvins were separated by hyphens. Since they also resemble a negative sign I suppose that they should probably be replaced with commas. Anyone else think so?Patriot1423 (talk) 05:06, 14 April 2016 (UTC)Reply

Thermal Conductivity Common Liquids

Latest comment: 13 years ago1 comment1 person in discussion

Common fluids and their thermal conductivity[1]

Thermal Conductivity of some common liquids
 at a temperature of 300 K

Fluid 	Thermal Conductivity (W/m K)

Acetic acid 	0.193
Acetone 	0.180
Alcohol, ethyl (ethanol) 	0.171
Alcohol, methyl (methanol) 	0.202
Alcohol, propyl 	0.161
Ammonia, saturated 	0.507
Aniline 	0.172
Benzene 	0.167
n-Butyl alcohol 	0.167
Carbon Disulfide 	0.161
Carbon Tetrachloride 	0.104
Castor Oil 	0.180
Chloroform 	0.129
Decane 	0.147
Dodecane 	0.140
Engine Oil, unused 	0.145
Ether 	0.130
Ethyl acetate 	0.137
Ethylene Glycol 	0.258
Freon refrigerant R-11 	0.093
Freon refrigerant R-12 	0.071
Glycerine 	0.285
n-Heptane 	0.140
Hexane 	0.124
Isobutyl alcohol 	0.134
Kerosene 	0.145
Methyl alcohol 	0.212
n-Octane 	0.147
n-Pentane 	0.136
Phenol 	0.190
Propylene glycol 	0.147
Transformer oil 	0.110
Toluene 	0.151
Turpentine 	0.128
Water, Fresh 	0.609

-96.237.79.6 (talk) 00:55, 27 September 2010 (UTC)Reply

Problem with the ordering

Latest comment: 13 years ago1 comment1 person in discussion

There seems to be some problem when ordering by Thermal conductivity. When trying to order from least to most conductor the Polyethylene foam goes nearly the end of the list where it should be at the start. I have tried formating the values differently but it doesn't seem to have helped. —Preceding unsigned comment added by 195.65.96.188 (talk) 12:06, 21 October 2010 (UTC)Reply

Clean up idea

Latest comment: 1 year ago8 comments6 people in discussion

What if, instead of the link to the source immediately after the number, make the number linked to the source? — Preceding unsigned comment added by 129.2.65.36 (talk) 01:04, 24 February 2013 (UTC)Reply

I knew copper and not silver is the best heat conductor. Can someone pls verify if I’m wrong?86.121.79.3 (talk) 04:28, 26 September 2014 (UTC)Reply

Not that it matters two years after the comment, but: I am pretty sure silver is a better electrical conductor (though a much more expensive one), and electrical and heat conductivities in metals have a roughly constant ratio. So I do not think the references are wrong in that respect. Tigraan (talk) 11:54, 13 April 2016 (UTC)Reply

Well thank you very much Tigraan and I don't know about the Wiedemann-Franz law but what I had told the unnamed user is that if the estimates are correct then there are some temperatures where a high purity copper is more conductive than silver and others where silver is the better conductor. Also I just checked and I noticed that I spelled it out far enough to get that into the list though it is detailed a lot finer in the cited Data Series itself. It used to be right in the CRC Handbook (where it is a lot easier to read it).CheersPatriot1423 (talk) 05:06, 14 April 2016 (UTC)Reply

Yes, Silver is a better conductor than copper, although I believe helium is the best. 68.175.111.242 (talk) 02:36, 5 November 2022 (UTC)Reply

(at room temperature) 68.175.111.242 (talk) 02:37, 5 November 2022 (UTC)Reply

Claean up this data dudes. This is useless. Cheers, Mike. — Preceding unsigned comment added by 91.148.90.52 (talk) 13:39, 16 March 2016 (UTC)Reply

Greetings Mike. You certainly have a point and what I did to the list makes it totally unwieldy. For many purposes the pat list above would be much more practical. But I was concerned about the authority of the measurements. I noticed wide discrepancies in various reports. For example the Yarwood and Castle tables from the University Press at Glascow have the thermal conductivity of quartz posted at 9.2 W m^-1 K^-1 at 291 Kelvins and the only way that that lines up much is that no one knows what it means. Also if you look up the details in the TPRC Data Series you find that many noted scientists have been reporting various thermal conductivities all over the map. If no thermal conductivities had really been measured then all tales about heat capacities would seem to be more of the same. Etc. and all of this would seem to be no good for the first law of thermodynamics and no good for the reputation of the enlightenment.

If maybe to the contrary the charges are untrue then I would think that probably a good investigation would find out whether the apparent discrepancies are really discrepancies. For example and quite apart from any consideration for any alloys it is possible to find widely different tales about the thermal conductivity of pure aluminum at very low temperatures. They are now posted in the table. For example at 5 Kelvins the TPRC estimate is nearly five times as high as the known facts as they are found in the CRC Handbook. And this kind of business could lead you to wonder whether maybe the science building has been more interested in its 401K Plan then it was in any thermal conductivities?

But then it you nose around close enough to make sure then eventually you find that pure aluminum did not mean the same thing to Weast as it did to Touloukian and Powell. And I would have thought that CRC purities were quite picky already! One little bitty bitty amount of dirt in the aluminum and it makes a very big difference at very low temperatures? Evidently. And I find that surprising. In any case it would seem that all of this business would look a lot more reliable if you find independent authorities in any close agreement on it and now in the table we find American and Soviet estimates in close agreement in the 1970s. Of course if the history of this business was supposed to be no ones business then prudent people would assume that maybe what it really means is a 401 K Plan and not any thermal conductivities at all and it happens that the widely accepted values have been holding up pretty well now for more than four decades anyway. At this point that is documented.Patriot1423 (talk) 04:52, 20 April 2016 (UTC)Reply

Dead reference

Latest comment: 1 year ago3 comments3 people in discussion

Reference no. 7 just links to Hukseflux sensors. I assume Hukseflux once published a table containing thermal conductivity values of different materials. This information is no longer accessible and the link to Hukseflux looks more like product advertisement. — Preceding unsigned comment added by 152.88.255.27 (talk) 16:02, 1 December 2014 (UTC)Reply

Reference no. 111 (for sandstone) is also a dead reference now. Looking at archives it seems to be document 15306 from gfz-public. From a quick glance their experimental values are between 1.5-3.1 W/mK which also do not match the values assigned to sandstone on this page. Link here https://gfzpublic.gfz-potsdam.de/pubman/faces/ViewItemOverviewPage.jsp?itemId=item_241013_2 130.159.237.134 (talk) 23:45, 4 May 2023 (UTC)Reply

Good Point. I'm new here and I don't know what to do about that? Patriot1423 (talk) 11:42, 13 April 2016 (UTC)Reply

Quality of the data

Latest comment: 5 years ago5 comments3 people in discussion

A rough check on the data show a rather heavy leaning on web sources like engineeringtoolbox, which are not of sufficent quality. Many references are to comercial sites. This compromises the whole article, although it probably deserves much better! I can imagine score of students making rather msitaken calculations on the basis of these data. Not necessarily life-threatening, but worrysome! The only reliable sources of data are from academic origin in such a context. There is no possible compromising with physics and thermodynamics! Unfortnately, I can' t pick up the job of checking everything. Cicero — Preceding unsigned comment added by QuousqueCatilina (talk • contribs) 09:46, 8 August 2015 (UTC)Reply

I would tend to think that for example a Wernher von Braun would probably be a qualified person even if he had never graduated from nursery school.

Also such a character seems to be a bit unlikely by comparison with people who have diplomas from places that would get sent to the welfare department if they tried to compete with those who would always put the rustiest part of the plumbing in the darkest corner of the basement.

And oh good good and off to the welfare department and surely it is people who are being bad for the economy who are most qualified on thermal conductivities, right?

And not Donald Trump, right?

And if that were the question at hand then maybe we would be very close to agreement.

But did you mean to suggest that good authorities are good enough?

To the contrary experience would lead me to think that it takes independent authorities.Patriot1423 (talk) 06:41, 14 April 2016 (UTC)Reply

I've looked through some of the citations for the "Non-standard conditions" table, and there is an inconsistency in the data reporting. Many sources use units of watts / (cm K), whereas the table uses watts / (meter K) - but some values were not converted correctly. As a result, entries like Diamond are shown in the centimeter value while others like the aluminum measurements have the meter unit. The difference is a factor of 100. Chris45215 (talk) 22:16, 5 June 2018 (UTC)Reply

The cited source document lists the thermal conductivites of very very pure aluminum in watts per cm and I converted them into watts per meter by multiplying each of them by 100. See TPRC as cited, Volume I, page 9. Patriot1423 (talk) 01:44, 2 January 2019 (UTC)Reply

@ Chris 45215 @ June 5, 2018: What is true about your objection is that the old TPRC source document is hard to read because it is blurred up some. To some extent that is balanced out some by the fact that it is also bilingual.

For example the thermal conductivities of the very very pure aluminum are graphed and listed in watts per cm per Kelvin in column k₁ and again in some sort of Btus per foot per degree F in column k₂. Over there the very pure aluminum is listed at 240 watts per cm per Kelvin at a temperature of nine Kelvins in column k₁ and listed again at 13900 Btu of some sort ft^-1F^-1 in column k₂ (as far as I can tell it actually says Btu lb^-1 which appears to be a typo since what would fit better is Btu hour^-1).

In any case some values are given for examples as 213 watts per cm per K at 6 Kelvins, 229 @ 7 K, 234 @ 8 K, 240 @ 9 K and etc. and all of that is found in columns T₁ and k₁.

The key to both the graph and lists is found under "REMARKS" on the same page. TPRC as cited, Volume I, page 9.Patriot1423 (talk) 03:01, 2 January 2019 (UTC)Reply

A Recent Objection

Latest comment: 5 years ago7 comments3 people in discussion

An anonymous engineer recently posted this objection on the user page of Patriot 1423:

Dear Patriot1423 - I sincerely do not wish to deface your page but I want to send you a private message and cannot find a way to do it (clicking your name or talk leads to just editing your page, which is not that I want to do, however this system is very unintuitive). Anyway please delete this after you read it:

You have been editing the page "list of thermal conductivities" extensively over the past months, and in the process you have destroyed its most important function - which is to provide a scientifically-correct ordered list of average thermal conductivity values (for various elements and materials) in W/m.K. By listing multiple values for each item you've basically just made the table useless, it's completely unnecessary to do this and hugely detracts from the benefit of the table, since there are now hugely irrelevant fringe values padding out each box. As you can probably tell I am no wikipedia guru, but I am an engineer, and I find this page a useful resource. Please return it to its previous guise which was working sufficiently, and is viewable here: https://en.wikipedia.org/w/index.php?title=List_of_thermal_conductivities&oldid=703545180

Apart from listing many superfluous values in each box for thermal conductivity, you have completely broken the ordering system (which can be used by clicking the little up and down arrows - i.e. ascending and descending) of thermal conductivity. When descending (i.e. arrows clicked twice), the order should start with helium, graphene, etc, which are above diamond, which is above copper... it's the natural and correct order. With whatever you've done with the multiple values, it's confusing, and also breaks the correct conductivity order. The page was fine as it was, maybe just leave it be unless you are intimately aware of what you are actually editing. Thanks and please don't take any offence, it just hurts me to see a useful page destroyed. Sincerely - an avid user of wikipedia - however not an editor (as you can see).

— Preceding unsigned comment added by 220.240.123.254 (talk) 06:11, 22 April 2016 (UTC)

I copy my response and invite a dialogue:

Hello Engineer:

I hesitate to delete your important message so fast, as you have requested, since you have important objections.

I’m not so sure that the old list is sufficient since the thermal conductivities actually get around a lot over some large temperature intervals.

Would you measure your refractory insulation at only one temperature and then build a blast furnace with it? If so then I would get nervous about the safety of everyone who is going to work there over close to a whole bunch of molten iron!!!

Also I have noticed that the theoretical article on thermal conductivity has a bunch of theoretical stuff which could hardly get evaluated either one way or the other if we pay no attention to the facts.

I don’t want to throw away a simplified version and instead I would have thought that simplifications are the second part of it.

Now I’m going to copy your message and put it over in the talk section of the article where I am not the only one who has been concerned about the quality of the data. Also I will copy my response over there and so far my impression is that probably Wikipedia deserves more than one list of thermal conductivities.

Thank you for your comment and this matter has not yet been settled.Patriot1423 (talk) 09:31, 22 April 2016 (UTC)Reply

@Patriot1423: I agree with the user above, the table in its current state is much more challenging to read than is necessary.

In my opinion the page would benefit significantly from being split into a table of conductivities at room temperature (where most users will be interested in values for) and at various temperatures (for those wishing to use wikipedia as a resource). Testem (talk) 23:58, 28 September 2016 (UTC)Reply

@Testem: I fully agree both sides are right and the page should be revised to include one sortable table for conductivities at room temperature and one more difficult table for conductivities as a variable function of temperature (to the inclusion of unusual temperatures).

I'm not sure if I will find time for that...Patriot1423 (talk) 21:14, 10 October 2016 (UTC)Reply

Such is the beauty of wikipedia that you don't have to :). It is logged here so would-be editors can see that if they split the table their changes will not be reverted. Testem (talk) 16:17, 11 October 2016 (UTC)Reply

I would like to help split the table, but I have severe doubts about some of the data in the "Non-standard conditions" table. The values for pure aluminum go up to 23,500, while diamond (a famously good conductor) is typically rated at around 1,000. The source document doesn't finish downloading for me, so I can't check back to that. But either way, I suggest that it is far more useful to give the most commonly accepted values. I also caution that values found in some scientific papers may not be relevant (even if they are accurate) if the purpose of those papers was to create a new variation of the material with previously unseen thermal properties. The only people looking for such values would be researchers seeking other papers to reference, and they would not go to such a general-topic page for such specialized knowledge. That information can be moved to a page dedicated to the properties of that specific material; for example the page for Superfluid Helium-4 has great information for the substance in specialized laboratory conditions. Chris45215 (talk) 21:34, 5 June 2018 (UTC)Reply

The TPRC Data Series is not very much like some scientific papers in the sense of anything much like specialized scientific periodicals. Instead most of the data in it was already published and the data series itself includes both the data and the NBS estimates.Patriot1423 (talk) 08:55, 10 February 2019 (UTC)Reply

By the way Chris thank you for your thoughtful consideration of the matter and I'm really sorry that I didn't notice it for a long time. I was busy with a job of all things. Right now it should be easier to verify that the things that I have reported are really in the cited sources since I have fixed up the links and also I revised the list some with now an emphasis on the whole earth, like the rocks and trees and the skies and seas. I thought that it should be an open door to the whole world.Patriot1423 (talk) 08:55, 10 February 2019 (UTC)Reply

External links modified

Latest comment: 6 years ago1 comment1 person in discussion

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External links modified

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Misinformation

Hello everyone someone put in a value of 0.17 w m^--1 K^-1 for "Oven Dry Oak" but his source just says oak, not oven dry oak. I think that that misleading report which is wrecking my detailed wood section should be removed but I don't know who's in charge nor what to do about this. Any advice?Patriot1423 (talk) 21:23, 17 January 2019 (UTC)Reply

On second thoughts I figured it out myself. All fixed now and really I think that Engineering toolbox is a good outfit and probably a value of 0.17 w ⋅ m^-1 K^-1 is as good as 0.117 in places where it is going to be either one or the other. I just changed the label to line it up with what people actually put there. Now it says "Wood, Unspecified," since that's what it really is. — Preceding unsigned comment added by Patriot1423 (talk • contribs) 00:02, 18 January 2019 (UTC)Reply

What is DIUF Water?

Latest comment: 1 year ago1 comment1 person in discussion

The list contains a redlinking term that does not seem to be explained further, namely "DIUF Water". What is that? Hobbitschuster (talk) 12:26, 17 June 2022 (UTC)Reply

Gallium alloy thermal interface materials missing. Add?

Latest comment: 4 months ago1 comment1 person in discussion

I was looking for information the thermal conductivity of various Gallium alloys such as Galinstan. If pure gallium and it's various alloys used in commercial and industrial applications I would greatly appreciate it. 136.36.158.165 (talk) 10:50, 3 January 2024 (UTC)Reply

Table structure

Latest comment: 2 months ago1 comment1 person in discussion

These tables are badly in need of radical restructuring. To start off with,

• each temperature value and its associated thermal conductivity value should together comprise a separate table row, and the extensive use of line breaks should be avoided.
• each material, currently shown in the left-hand column, should appear instead as a table header, extending across all the columns.

Ehrenkater (talk) 15:47, 12 February 2024 (UTC)Reply