DE1533919C3 - Process for degassing iron melts by adding liquid or solid magnesium to a hollow jet - Google Patents

Description

The present invention relates to a method for degassing liquid iron through Addition of magnesium to a hollow jet formed in a nozzle.

A large number of methods are known. Liquids, which include the molten metals belong to degas. This can be done by sucking off under vacuum, not passing others through soluble gases or vapors, boiling and chemical bonding.

For liquid metals such. B. Iron and steel melting is in addition to the removal of dissolved oxygen by deoxidation, d. H. by binding the same to metals with a higher heat ion such as z. B. silicon and aluminum, especially for removing inert gases such as nitrogen and hydrogen, vacuum applied.

However, the use of vacuum causes high investment costs. In contrast, the application the flushing process with magnesium or its alloys, which are in solid or molten form in a hollow jet generated in a discharge stone can be added to a molten iron, simply. The magnesium evaporates in a hollow jet, and its vapors tear or purge all inert gases such as nitrogen and hydrogen from the pouring stream, while the oxygen and sulfur dissolved in the iron mix with the Magnesium connects and is deposited on the iron bath or evaporates as dust.

The introduction of alloy substances into a hollow jet for the purpose of creating an alloy became known through the British patent specification 5 37 204, furthermore through the German patent specification 8 72 497 and through a publication by H. Bakkerus "Een nieuwe inoculatie-methode" TNO Metaalinstitut Publikatie 115.

In all of these cases, however, it is a matter of alloying purposes, not of

ίο degassing a melt in the case of the added metal completely evaporate d. H. should leave the melt. As a result of its high vapor pressure of around 10 atmospheres At the treatment temperatures of iron, the magnesium leaves the iron completely.

The drawing illustrates an embodiment of a device with which the degassing of a Iron smelting can be carried out. Inscribed therein

ι the cone stone with the inner supply pipe refractory material

2 the outer outlet stone made of refractory material

3 the guide stone for the cone stone forming the hollow jet for the purpose of precise centering 4 the feed pipe transmitting a possible lifting movement

5 the feed tank for the evaporation material (Mg)

6 a regulator cone, which is proportional to the amount of metal, the inflow of the evaporation metal regulates

7 the hydraulic lifting cylinder which actuates the lifting movement in this exemplary embodiment

The metal to be degassed flows between the outlet stone 2 and the cone stone 1 formed cone-shaped gap forming a hollow jet. The magnesium gets into the hollow jet through the Feed pipe 4 and the hole in the cone stone 1.

The time- and path-dependent process can be achieved by choosing a suitable particle size classification for the magnesium as well as its alloy mixtures differing in terms of grain size and magnesium content Composition can be controlled so that the reaction process extends over the entire length of the beam extends.

1 sheet of drawings

Claims (2)

Patent claims: 1. Applying the method of adding magnesium or magnesium alloys in solid or in molten form in a hollow jet of molten iron generated in a discharge stone for degassing iron melts. 2. Application of the method according to claim 1 with the proviso that a mixture of magnesium alloys with different high magnesium contents and melting points is used, which are step, time and path dependent in the hollow jet evaporate for the purpose of claim 1.