DE612651C - Process for the production of heat-resistant alloys - Google Patents

Description

Process for the production of heat-resistant alloys In the recent years have grown in addition to the chrome-nickel alloys known as heat-resistant Alloys based on iron with the addition of about ao to 30% chromium and about i to 5,6 ° 1o aluminum introduced. While chromium-iron alloys per se the mentioned chromium contents already one. will have high heat resistance by the addition of aluminum significantly increases the heat resistance achieved. In particular, alloys with about 5 ° J, aluminum have proven to be useful proven. Alloys with higher aluminum contents are difficult to process, and small amounts of aluminum additions do not yet give completely sufficient heat resistance.

It has now been tried several times in vain to use aluminum in these Partially replacing alloys with magnesium, since magnesium is even more heat-resistant Oxide forms as aluminum. The addition of magnesium to refractory alloys, like steels or iron-chromium alloys, now proved very difficult since the magnesium vaporizes and burns at a temperature of 150 °. If you want to add magnesium to an iron-chromium alloy before casting, so is also the usual technique of tying a piece of magnesium to a stick and quickly Immersing it in the melt is not feasible because the melt is explosive is thrown out of the pan or oven.

With alloys containing nickel one has so far helped that one has used nickel-magnesium master alloys because of their low melting points and the low magnesium concentration are relatively easy to alloy.

It has now been shown that you can surprisingly easily get the magnesium can be added to the alloys if you use it in the form of eutectic alloys Aluminum clogs. The use of magnesium-aluminum alloys as an alloy additive is known per se. But it was not known that it is particularly useful just to use eutectic alloys as alloy additives, which are characterized by characterized by a low melting point and in which the components are in particular intimate mixture. As a result of the low melting point of the eutectic Alloys and the ability to get along with the base metals in question easily alloying is particularly low when using eutectic alloys Burn-off achieved on aluminum and magnesium.

Because calcium additives are used for certain heat-resistant alloys of the described Kind will also be beneficial in these too - Cases a master alloy related to aluminum that is similar to the alloy with magnesium is said to have the eutectic composition, thus lowering it Melting point is guaranteed: Experience shows that the following alloys The following can be used with advantage: aluminum + 35 ° / o magnesium melting point q.52 °, aluminum -f- 9 ° J0 calcium melting point 6r6 °. If the ratio of the two components the master alloy does not have the desired addition of these two substances to the alloy corresponds, pure aluminum is added in the rest.

With the addition of magnesium or calcium in the specified manner can the aluminum content can sometimes be reduced more than correspondingly. So show already Alloys with less than 10% aluminum and about 0.1% high magnesium addition Heat resistance. The amount of the eutectic alloys to be added becomes like this chosen that preferably between o, oi and a ° / o magnesium or calcium or both Elements are added.

If you want to add magnesium and calcium in addition to aluminum, then one can use either eutectic magnesium-aluminum and calcium-aluminum alloys add individually, or you can use a ternary eutectic alloy of magnesium, Use calcium and aluminum.

Claims (1)

PATENT ANSPLZUCH: Process for the production of heat-resistant alloys, consisting of iron with about 20 to 30% chromium and additions of aluminum, magnesium and calcium, characterized in that eutectic master alloys made of magnesium-aluminum, calcium-aluminum or magnesium-calcium-aluminum " be entered in the molten bath containing chromium and possibly aluminum.