DE941853C - Production of basic wind-freshened steels with reduced oxygen and inclusions - Google Patents

Description

Production of basic wind-cooled steels with reduced content of oxygen and inclusions In the last few years one has learned to use a wind-rejuvenating steel to win whose nitrogen content is no longer significantly higher than that of Martin steel, and it has also been shown that these wind fresh steels are a Another area of application, in particular that of deep-drawing steels, was thus opened up. But it has been found that these puffed on low nitrogen content Steels are no better in terms of their oxygen content and their degree of purity need to lie down than normally produced wind-fresh steel. That stayed so far still closed to the wind-fresh steel areas of application, which are special Demand clean, especially low-oxygen steel.

According to the invention, it is possible to use a steel with a lower oxygen content and get fewer inclusions. It is even possible to follow the procedure Invention to design so that the basic wind-freshed steel less than o, o5 % Oxygen and very few inclusions. He is thus in his purity equivalent to Siemens-Martin-Stahl. A condition for solving this problem is a selection of the contents for phosphorus, manganese and silicon in pig iron. These Selection is made from the area known per se for these elements; however it comes above all on the ratio of the: quantities of these elements to be set in each case at. It is assumed that the pig iron is at the usual temperature, at least is delivered so warm that it fades normally, and that the addition of lime of normal quality is dimensioned so high that it is sufficient for the usual dephosphorization. That The ratio of the manganese content to the phosphorus content should be regulated so that with As the phosphorus content increases, so does the manganese content. The minimum salary should be of manganese be determined by the ratio of phosphorus to manganese of about 1.8, while the upper limit for the manganese content by a ratio of phosphorus to manganese is given equal to about 1.3.

It should also be noted that the silicon content in the pig iron should be lower, the higher the manganese content. The rule that applies to the order of magnitude is that the product of the silicon and manganese content should be at most about 0.6 or, in other words, that the reciprocal value of the manganese content in the pig iron is multiplied by 0.6, which is roughly the maximum permissible next to it Silicon content indicates: It would therefore z. B. result in the following conditions:, 0/0 °% Mn °% si ° / o Mn o @ o Si min. min.max.max. x, 8 1.0 o, 6o 44 0.4 and smaller 2.0 1 1 0.55 1 0.4 5 - - 2.2 1.2 0.5 0 1.7 0.35 - 2.5 -1.4 0.45 1 9 0.32 - - 3.0 1 , 7 0.35 2.3 o, 26 - - There is thus no lower limit to the silicon content of the pig iron. -The temperature of the pig iron affects the ratio to be set between phosphorus, manganese and silicon in the following direction: the higher the pig iron temperature, the higher the silicon content and the lower the manganese content within approximately the specified limits. This means that, conversely, at lower pig iron temperatures, the higher manganese contents and lower silicon contents must be observed.

For pig iron with lower manganese content than according to the invention Required, it is possible to find the missing manganese, preferably in the form of oxidic manganese carriers of the melt at the latest by the end of the decarburization, d. H. up to the so-called Transition, admit it.

It is necessary to only re-inflate as briefly as possible, and that should the blowing time was measured at a normal wind volume of around 20 ms / t iron and minute from the maximum of the manganese hump, not more than about 60 seconds. This The time of the manganese bulge can be identified by the occurrence of a maximum radiation intensity the converter flame, which was recorded with some kind of radiation meter known can be, but also reasonably clear by the beginning of the development of the brown vapors around the converter flame is made immediately visible. Around The temperature of the bath should be used to achieve a low phosphorus content be kept lower than 165o ° C.

Compliance with these guidelines for the composition of the pig iron however, would not be the optimum of the achievable improvement of the steel in with respect to the oxygen content and the lack of inclusion.

In order to achieve even lower oxygen levels and an even greater degree of purity, namely also to oxygen contents of less than 0.05 0 / a and a degree of purity As with the Siemens-Martin steels, it is necessary to be able to get there as well to make the post-blowing special.

It is especially necessary at the end of the blowing, at least during the last minute to bring only part of the bath into contact with the blowing stream. Care must then be taken to ensure that the wind blows its way from the entrance to the bath is shorter until it leaves the bath. This can preferably be achieved by that the converter is placed at an angle, so that the blowholes in the bottom only slightly submerge and the blow stream only sweeps a small part of the bath. It it does not matter whether you are working with a converter that blows at an angle or whether only in the last blowing period the normal blowing converter inclined to the end blows. It is to be recommended that even when correcting the blow, you should still be inclined in this position Position is blown. The effect of this type of blowing is enhanced when the blowholes enlarged to 2o to a5 mm in diameter and in the area of the Be distributed so that they only cover a narrow rectangular base, so that when blowing at an angle, all blowholes are only submerged as shallowly as possible.

If still in this implementation of the method according to the invention so low levels of nitrogen and phosphorus are not obtained that the steel also in this respect is similar to the Siemens-Martin-Stahl, can in addition the measures to achieve this goal are applied, above all can then - not only in the last minute, but over a longer section be blown at an angle during the blowing time.

In order to achieve a particularly low phosphorus content in steel, the melt, for example, by inclined blowing during decarburization or keep hotter by other known measures and after a short blowing, from Reaching the maximum of the manganese hump from measured, if possible at the maximum of the Manganese humps themselves, the first slag, as soon as it has become liquid, pull off and after another addition of base to the desired low phosphorus content to the end blow. It becomes the pure bubble time from when the maximum of the manganese hump is reached from measured, not extended.

It also does not change anything in the invention if heating means are used during post-blowing adds to increase the casting temperature.

It is also possible to start with less pig iron and lime to work and after removing the phosphate slag under again additive to refill of bases Thomas pig iron or steel pig iron and in the invention Way to finish-blown steel with a very low phosphorus content.

It is also possible, before the end of the dephosphorization, shortly after it has been reached the maximum of the man ganbuckels to pour off the phosphorus slag as soon as it becomes liquid is, if necessary, to heat up the metal in the converter and the dephosphorization to be carried out when emptying into the ladle. One gives this z. B. in the void beam ground or heated or melted basic oxidic slags, such as. B. Ca or Na ferrites, Ca or Na carbonates or their mixtures.

To further reduce the Fe0 content in the steel, z. B. when emptying the partially or finished phosphorous steel contains manganese, acidic or basic Ores or slags, such as B. manganese-containing Martin furnace slags or manganese-containing Cupola or blast furnace slags, are added. This measure can be carried out with the previously described treatment of the steel combined with dephosphorus agents will.

Example i A Thomas pig iron with o, 30/0 Si, I, 20/0 Mn, 2, o "/ o, P is blown normally with the addition of normal lime and coolant, up to about 1 minute before the blowing converter is turned over at an angle into the The melt is guided so that the final temperature is 162o °, the converter is turned over from the inclined blowing position after 50 seconds of post-blowing, measured from the maximum of the radiation intensity; the steel then contains at around 0.040 / 0 09 only o, o24% P. After slagging, the steel is emptied into the pouring ladle, carburized in the ladle with coke breeze to about 0.07% C, poured into normal chill molds and the blocks are rolled out to form iron.

Example 2 The very soft steel similarly treated is, if necessary after renewed blowing, after removing the first phosphate slag with addition of lime and, if necessary, of heating agents such as FeSi or CaSi or Al etc., takes place when emptying from the converter into the pan with ferrosilicon to transformer quality alloyed, with higher alloying additions if necessary when pouring into a second pan can be added.

The method according to the invention brings the very important possibility with itself, when using the steel in particular as a soft steel from the subsequent Refrain from adding manganese (ferromanganese or similar manganese carriers). It recommends However, when emptying into the ladle, carbon becomes anthracite or add coke or other non-metallic charring agents to make the desired Strength values of steel to come. A sufficiently low sulfur content in steel is a self-evident requirement for working without the addition of manganese, unless a special treatment for desulfurization by other means is carried out. The clean, especially low-oxygen steel can even be used as a The starting material for high-quality alloy steels is used, e.g. B. is it possible to such Get alloyed steels by adding the alloying constituents to the ladle be added, suitably in melted or preheated or crushed State. It is therefore possible to produce a material in a very economical way to get, which after its alloy represents a steel, as it has only been before could be produced in a Martin oven or an electric oven, such as B. high quality transformer steel or also stainless steels, tool steels and others.

Claims (12)

PATENT CLAIMS: i. Process for the production of basic wind-cooled steels with a reduced content of oxygen and inclusions, characterized in that a pig iron is blown whose contents of phosphorus, manganese and silicon are in the known ranges, but are coordinated in such a way that the The ratio of phosphorus to manganese is 43 to 1.8 and the product silicon content - manganese content is at most about 0.6, and that the duration of the blowing from reaching the maximum of the manganese hump is kept short and preferably not more than 60 seconds. 2. The method according to claim i, characterized in that that at lower hangang contents in pig iron than required according to the invention, the Missing manganese in the form of oxy-dic manganese carriers by the end of decarburization at the latest is added to the converter. 3. The method according to claim i and 2, characterized in that that an iron mentioned in claims i and 2 is blown so that, at least in the last minute of blowing, the path of the blowing stream through the bath is shortened, preferably by tilting the converter. q .. Method according to claims i to 3, characterized in that a bottom is used for blowing, the blow holes enlarged to 20 to 25 mm in diameter and preferably in the bottom at correspondingly reduced number of blowholes are arranged so that all blowholes when sloping Submerge bubbles as little as possible under the surface of the bath. 5. The method according to claim i to q., characterized in that to achieve a low nitrogen content Measures known per se for this purpose are used, in particular the Blow obliquely until the end over a longer section of the blowing time. 6th Method according to claims i to 5, characterized in that to achieve one low phosphorus content, the melt is kept hotter, e.g. B. by oblique blowing during decarburization, and after brief blowing from reaching the maximum of the manganese hump calculated on the slag removed and after renewed addition of basic slag formers is blown to the end. 7. The method according to claim 6, characterized in that heating agents are added after deslagging. B. Method according to claims i to 6, characterized in that the use of pig iron and lime is reduced at the beginning is then drawn off the phosphate slag and with renewed addition of bases Thomas- or steel pig iron and refilled to low phosphorus content according to the invention is finished blown. 9. Modification of the method according to claim i to 8, characterized characterized in that the blowing shortly after the maximum of the manganese hump is exceeded canceled and the dephosphorization outside the fresh vessel is completed, z. B. by adding dephosphorus agents to the discharge stream. ok procedure according to claims i to 9, characterized in that @ when emptying the steel in Acid or basic slags or ores containing manganese are added to the ladle. ii. Method according to claims i .bis io, characterized in that in particular soft steels after the hereditary laser without the addition of ferromanganese or similar manganese carriers, possibly with an addition of carbon to comply with the strength requirements of steel. to be shed. 12. The application of the method according to claims 1 to ii for the production of high-quality alloyed steels in such a way that the steel blown according to claims i to io is alloyed. Cited publications: German Patent No. 349,970; French Patent No. 861 q.27; "Stahl und Eisen" 1931, pp. Io6; 1942, S, 341 to 346; 1947 no.9 / io, p.137, 45, 147, 220; No.-i3 / i3, p. 215,: 218, 22O.