Education /Awareness Required on Galvanic Corrosion!

Quote: Originally posted by franklyn

From Ye old rhodium apothecary http://designer-drug.com/pte/12.162.180.114/dcd/chemistry/hy... Of course you can always just buy the Sulfate, just don't pay more than 15 cents per gram ( extra with shipping ) http://www.advance-scientific.net/Properties.asp?code=H1019+... P.S. @ tito-o-mac aluminum hydrazine is not a componud , it is a suspension of aluminum dust and anhydrous hydrazine. Hydrazine hydrate will slowly combine the aluminum with the water into aluminum hydroxide releasing hydrogen gas until all that remains is anhydrous hydrazine over the aluminum hydroxide precipitate. Not good if this happens in a closed container having hydrogen under pressure over anhydrous hydrazine. VERY - B I G - B O O M , house falls back to earth as blizzard of sawdust. _______________________________________________________________ U P D A T E Note that my assertion above may be unfounded. Draw your own conclusions. Quoted from page 392 of Corrosion of Aluminium posted here _ http://www.sciencemadness.org/talk/viewthread.php?tid=8706&a... Pure hydrazine and its derivatives monomethylhydrazine (MMH) CH3NHNH2 and dimethylhydrazine (DMH) (CH3)2NNH2 have no action on aluminium in a wide range of temperatures between -196 and +27 ºC [14]. Hydrazine solutions have no action on aluminium; the annual decrease in thickness in solutions at 5 and 10% is below 1 mm. Hydrazine and its derivatives are not decomposed or altered in contact with aluminium alloys [15]. This makes it possible to manufacture the tanks of rockets in aluminium alloys such as 6061. Tests have shown that this alloy is not prone to stress corrosion in hydrazine [16]. [15] Van der Wall E.M., Suder J.K., Beegle R.L., Cabeal J.A., Propellant/Material compatibility study, AFRPL, report TR-71-741. http://stinet.dtic.mil/cgi-bin/GetTRDoc?AD=0736464&Locat... [16] Gilbreath P., Adamson M.J., The stress-corrosion susceptibility of several alloys in hydrazine fuels, NASA, report TN D-7604, February 1974. http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/1974000... Edited on 25-12-2007 - - - - - - - - - - - - - - - - - - - - More Curious observations from various sources _ Investigations on the reaction between aluminum and hydrazine have produced discordant results. However, at least under some conditions, hydrazine has caused corrosion of aluminum. This corrosion is dependent on the aluminum alloy, the hydrazine purity and the temperature. In normal environments aluminum is covered by a protective oxide layer. The solubility of this oxide in water is very low but is increased in acidic or alkaline solutions. The oxide is very hard to reduce. For example,the free energy change, for the reaction 3 N2H4 + 2 Al203 = 3N2 + 6H20 + 4Al, is +321 Kcal. With such a high positive free energy change, the reduction by hydrazlne is not found. The solubility of aluminum or aluminum oxide in hydrazine appears to be very slight. However, when hydrazine was stored in 2014 aluminum, a precipitate was observed containing aluminum and copper. This dissolution and precipitation appears to be similar to corrosive reactions in water where there is local solubility followed by precipitation of the dissolved product. A commonality exists between solutions of water and carbon dioxide in hydrazine in that both are sources of protons _ H20 + N2H4 = N2H5(+) + OH(-) CO2 + N2H4 = H2N2HCOO(-) H(+) The latter product, carbazic acid, is probably more correctly characterized in excess hydrazine as the hydrazinium salt, H2N2HCOO(-)N2H5(+). The hydrazinium ion, N2H5(+), in hydrazine is the analog in properties of the hydronium ion, H30 +, in water. Simplistically. a measure of the hydrazinium ion concentration may be calculated for systems containing the two impurities by using the equilibrium constant for reaction (1), K298 = 8.5X10-7, s and assuming for reaction (2) that carbazic acid is a strong acid and the CO2 reaction with N2 H4 is complete. Thus, for small amounts of water, the hydrazinium ion will be proportional to the half-power of the water concentration and at a 1 percent impurity level would be 7×10 -4 M. Assuming complete ionization, the hydrazinium ion concentration in reaction (2) is directly proportional to the carbon dioxide impurity It is expected that the hydrazine salt of carbazic acid will ionize in hydrazine as N2H5(+) and N2H3C00(-). If the N2H5(+) ion is the reactive or catalytic speciues in the carbazic acid catalyzed decomposition of hydrazine, this would be in agreement with the previous observation that, of the other additives tested, only water increased the decomposition rate. [Edited on 3-1-2008 by franklyn][/rquote]

Quote: Originally posted by AJKOER

One thing people should learn is that Aluminum corrosion can be accelerated both by chemical and electrochemical paths. Mixing metals is asking for galvanic corrosion. Here is a near billion dollar mistake paid for by the US Navy on its new Aluminum ship (link: http://mobile.bloomberg.com/news/2011-06-17/navy-finds-aggre... ). The people responsible for this $$$$$ blunder still apparently think it can be fixed! There will have plently of chances to experiment as this ship is but one of many in a $30 billion fleet.

Quote: Originally posted by AJKOER

"Anode: Al(s) + 3OH−(aq) → Al(OH)3(s) + 3e− Cathode: O2(g) + 2H2O(l) + 4e− → 4OH−(aq) Overall: 4Al(s) + 3O2(g) + 6H2O(l) → 4Al(OH)3(s) " Now clearly, the reaction at the cathode can raise pH so as to enable the dissolution of the alumina....... -------------------------------- I created an aqueous version of the battery using Al foil, household dilute ammonia, dilute 3% H2O2 in place of air to speed things up and some sea salt, a good elecrolyte. What is immediately visible are tiny bubbles (Hydrogen, I suspect). What was unexpected is how in 5 minutes the shiny Aluminum foil becomes black (Silica or Carbon from the Aluminum alloy used to create the foil?)). White floating particles of Al2O3 are also apparent. After a day, the reaction cannot be restarted by adding more H2O2 (Al anode is apparently coated as noted in commentary above)...... [Edited on 5-7-2014 by AJKOER]