Talk:Hydrogen embrittlement

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Merger

Latest comment: 17 years ago1 comment1 person in discussion

I whole-heartedly support merging Hydrogen grooving with this article, as they are similar in process.--Vox Causa 22:09, 27 September 2006 (UTC)Reply

pRoPeR cApItAlIzAtIoN?

Latest comment: 17 years ago2 comments2 people in discussion

Is there any objection to moving this article from "Hydrogen embrittlement" to Hydrogen Embrittlement", to properly capitalize? If my suggestion is improperly capitalized for wikipedia articles, then by all means, let me know so that i may change my ways. But I always thought that aritcles were capitalized.--Vox Causa 22:09, 27 September 2006 (UTC)Reply

Not a name keep it as it is.Mion 10:15, 28 September 2006 (UTC)Reply

Grooving and Embrittlement - Keep it separate

Latest comment: 4 years ago2 comments2 people in discussion

Hydrogen embrittlement is a reduction in tensile strength caused by the introduction of molecular hydrogen into a denser matrix such as high strength steel. It has nothing to do with corrosion and is reversible (if baked out in time). These two processes are different animals and should remain listed separate.

Too late!? They did a redirect without actually merging the information— so I did a copy/pasta as a belated resolution— let’s see who cares. WurmWoode^T 04:42, 26 October 2019 (UTC)Reply

I have moved the content to the Corrosion page since it is a form or corrsion and not embrittlement and updated the redirect to point to that. NeedsGlasses (talk) —Preceding undated comment added 13:16, 26 October 2019 (UTC)Reply

Another Merger

Latest comment: 16 years ago1 comment1 person in discussion

What about placing this article within the "Hydrogen Damage" article? 63.169.117.7 (talk) 21:35, 4 March 2008 (UTC)Reply

Helium

Latest comment: 12 years ago3 comments3 people in discussion

Can helium also embrittle metals? Stonemason89 (talk) 23:49, 24 July 2009 (UTC)Reply

Helium is an noble gas and consequently doesn't react with anything. So no embrittlement from helium can be expected. —Preceding unsigned comment added by 69.157.3.239 (talk) 22:01, 3 August 2009 (UTC)Reply

Helium and Noble gases do not diffuse through metals per se, or interact chemically. Helium diffuses very rapidly through regular glass (a liquid) especially at slightly elevated temperature (an issue with older vacuum tube technology). Presumably disordered metals or metal glasses would behave similarly. Shjacks45 (talk) 05:29, 26 August 2011 (UTC)Reply

Related phenomena

Latest comment: 13 years ago3 comments2 people in discussion

The first two phenomena in the "Related phenomena" section seem to be the same thing: high-temperature hydrogen diffuses into the metal and reacts with carbon (or carbide) to decarburise the metal, causing internal pressure (as methane gas), increasing the likelihood of failure. Is there an important difference between the two processes that I'm missing? If not, one should probably be deleted, or the information in the two of them merged, so that there's less repetition of the same information. EricWesBrown (Talk) 23:02, 3 October 2010 (UTC)Reply

They are the same thing. I believe the repetition came from a merge. Feel free to copyedit the section. Wizard191 (talk) 13:00, 4 October 2010 (UTC)Reply

Will do. Thanks. EricWesBrown (Talk) 00:12, 7 October 2010 (UTC)Reply

Incomplete/accidentally deleted sentence

Latest comment: 13 years ago2 comments2 people in discussion

This part of the "Counteractions" section appears to have been accidentally damaged during editing.

"This per SAE AMS 2759/9 Section 3.3.3.1 which calls out the correct procedure for eliminating entrapped hydrogen. ting the metal is applied to allow the hydrogen to diffuse out before it can cause any damage." —Preceding unsigned comment added by 220.157.160.183 (talk) 08:27, 9 November 2010 (UTC)Reply

Fixed (vandalism) - thanks :) Stephenb (Talk) 08:29, 9 November 2010 (UTC)Reply

Perhaps not

Latest comment: 12 years ago1 comment1 person in discussion

I worked as a Industrial Test Lab for awhile and it is not the Hydrogen but the combining of Oxygen from intergranular regions that combines to make internal water. Plating of "oxygen free Copper" from highly acidic solutions (pH=-1) still contains some oxygen in the Copper. Plating from highly alkaline solution (very low hydrogen availability; pH=11) at high overcurrent forces Alkali metal ions into the plated metal, however the resulting oxide is solid. Ammonium ion migrates into plated metal similar to Potassium, however is gaseous and will react similar to hydrogen. Smaller ions like Lithium will diffuse further into the metal. The Group VIII metals all have an affinity for Hydrogen and thin foils of platinides and ferrous metals will pass Hydrogen gas (splitting Hydrogen molecules into atoms takes 104 KCal/mole; and diffusion of H₂ through Ni and Pd is atomic.) Compare diffusion of Hydrogen (using Helium as a base) through these metals compared to others (use metals nonreactive to molecular hydrogen like Mercury or Antimony or Tin). Shjacks45 (talk) 05:58, 26 August 2011 (UTC)Reply

Contradictory Opening Paragraph

Latest comment: 8 years ago1 comment1 person in discussion

"Though hydrogen atoms embrittle a variety of substances, including steel, *aluminium* (at high temperatures only[3]), and titanium,[4] hydrogen embrittlement of high-strength steel is of the most importance."

Aluminium contradictory.

"In tensile tests carried out on several structural metals under high-pressure molecular hydrogen environment, it has been shown that austenitic stainless steels, *aluminium* (including alloys), copper (including alloys, e.g. beryllium copper) are not susceptible to hydrogen embrittlement along with a few other metals"

A quick internet search for hydrogen embrittlement of aluminium alloys produces many articles on it. Can someone with some expert knowledge on this re-write the first paragraph? 89.197.7.162 (talk) 14:39, 20 April 2016 (UTC)Reply

Temperature

Latest comment: 7 years ago1 comment1 person in discussion

The article carefully navigates around giving the facts. "Because the solubility of hydrogen increases at higher temperatures, raising the temperature can increase the diffusion of hydrogen. When assisted by a concentration gradient where there is significantly more hydrogen outside the metal than inside, hydrogen diffusion can occur even at lower temperatures." High? Lower?!? --129.13.72.198 (talk) 16:25, 17 September 2016 (UTC)Reply

External links modified

Latest comment: 7 years ago1 comment1 person in discussion

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Hydrogen from where?

Latest comment: 6 years ago1 comment1 person in discussion

This article is very vague about where the hydrogen comes from. How about a little better explanation? Hermanoere (talk) 22:14, 18 December 2017 (UTC)Reply

Link to hydride page?

Latest comment: 4 years ago1 comment1 person in discussion

I feel that it could be helpful to have "hydride-forming" at the top of the page link to the wiki page about hydrides (currently titled "Hydride") Please let me know if I'm doing anything wrong, I'm new here and hope to improve. (Duckduckgoop (talk) 19:44, 27 May 2019 (UTC))Reply

Mortlet 1858 reference

Latest comment: 4 years ago1 comment1 person in discussion

I failed to locate an online copy of the journal article from which the image showing the effect of a high temperature bake duration on the Stress (mechanics) versus time to fracture of several embrittled steel samples. Resources I searched were the AIChE eLibrary, Google Books, Google Scholar, and Worldcat. The best I could find were citations that clarified the name of the author and the journal as well as confirming the volume number in the article's reference source code. You might try your luck finding a physical or microfilm copy at a library near you with WorldCat (OCLC: [18157241]). You'd be looking for an article named "A new concept of hydrogen embrittlement in steels" by a "J. G. Mortlet" in volume 189 of the Journal of the Iron and Steel Institute published in 1958, pages 37-34. Baltakatei 19:18, 26 July 2019 (UTC)Reply