DE675353C - Stabilization of saltpeter baths - Google Patents

Description

Stabilization of saltpeter baths It is known that the tempering of alloys, in particular aluminum alloys, takes place in technology predominantly with the aid of saltpetre baths. In order to achieve the thinnest possible melt even at relatively low temperatures, the eutectic mixture of potassium and sodium nitrate (50:50) with a melting point of 218 'is generally used. Working with the salts and salt mixtures mentioned is not without risk, however, since, due to circumstances that are not known in detail, baths based on saltpeter tend to suddenly decompose with an explosive character when used. The easy decomposability of the molten alkali metal nitrates into alkali metal nitrite and oxygen, which can even lead to the formation of alkali metal oxide, undoubtedly plays an essential role in this process. It is also known that nitrate melts attack both the iron container and the workpieces to be treated in the temperature range of their applicability (about zoo to 500 °). In order to prevent this corrosion of the metal parts coming into contact with the saltpeter bath, it has already been recommended to add up to 2% of an alkali chromate or dichromate to the molten saltpeter. Such an additive, which evidently causes a superficial passivation of the metal objects, prevents a reaction of the molten nitrate with the material, but, as experience has shown, does not eliminate the risk of the molten nitrate decomposing.

It has now been found that an increase in the addition of alkali or alkaline earth calimonochromate surprisingly has the effect on molten saltpeter baths beyond 20lo, too Certainly prevent the dissolubility of baths while dichromates are not suitable in this case.

An additive works in a similar sense, albeit less pronounced of alkali tungstates, molybdates, vanadates and manganates.

The invention accordingly relates to a method for stabilization of tempered molten baths based on saltpeter, in which the saltpeter bath is a 2% excess amount of alkali or alkaline earth monochromate is added with the proviso that the addition is made larger, the higher the use temperature of the bathroom is.

In detail it has been found that for use temperatures of 300 ° 2 to 5 0/0 K2 Cr 04, 400 ° 5 to i 00 /, K. Cr 04, 500 ° io to 2o1 / 0 K, Cr04 or corresponding amounts of the above-mentioned similarly acting exZ additives required are.

From the following number table, in which d. Nitrite content and the AlkaA.; Due to the K20 formation of the eutectic potassium-sodium-saltpeter melt at an operating temperature of 5,000 depending on the duration of use of the tempering bath, the stabilizing effect of the monochrome additive is clear: '.Ols'ffe, chromate addition With to °% chromate addition # Operating time in days N203 j A1cality in N203 alliality in o / o ö H Cl / g melt o / o ö H Cl / g melt i I 0, I7 0.12 0, I7 ( 0 , 10 2 0.33 0.21 o, 18 0 , ii 3 0.56 0 32 0.20 0.13 6 3,6o I 2.40 0 1 8 0.09. 30 1245 1465 o, 18 0, i2

Claims (2)

PATENT CLAIMS: i. Process for stabilizing molten saltpeter for the tempering of alloys, characterized in that the melts alkali or alkaline earth monochramate is added in amounts of more than 2%, with the proviso that that the additional amount is selected to be greater, the higher the use temperature the melt-is. 2. The method according to claim i, characterized in that in place Monochromats, Miylybdate, Wolframate, Vanadate or Manganate can be used.