DE653969C - Process for producing high-quality gray cast iron by adding titanium - Google Patents

Description

Method of making high quality gray cast iron by addition von Titan In an essay »About titanium in gray cast iron <c (Stahl und Eisen 1923, p. 149i-94) has E .. P i w o w a r s k y on the previously published, in part contradicting reports about the influence of titanium on the physical Properties of cast iron reported and is based on our own experiments to the conclusion come that with the titanium content of the cast iron already a certain refinement of the graphite occurs, which has a favorable influence on the physical properties of the cast ice is. On the other hand, other researchers like P i -z, # o w a r s k y communicates, in the opposite sense, about the inflow of titanium on cast iron reported.

The inventor's own experiments only worked. to a procedure after the titanium under the usual metallurgical, ännischen working conditions advantageous Graphite refinement, with results that have occurred so far in practice Operations could not be achieved.

This method forming the subject of the invention is characterized in that that the melt after the addition of titanium its brief oxidizing bending action by means of is subjected to oxidizing gases or solid oxidizing agents. One proceeds thereby roughly in the following way: For the production of masses or castings, the Raw materials from which the cast iron is to be made, usually approximately 1 weight percent of ferro-silicon-titanium added, which contains approximately 15% titanium. After mixing, air or, advantageously, carbonic acid (carbon dioxide) blown through the molten mass for 1 or 2 minutes. One can use any other oxidizing gas or any other gas instead of gas add suitable solid oxidizing body to the melt, such as. B. a carbonate i or oxide. In certain cases it can also create an oxidizing atmosphere enough in the furnace to oxidize the titanium and produce the desired Achieve success.

The following results were observed: Test bars were produced according to the regulations of the German Association for Material Testing of Technology (casting length 65o mm, 600 mm free support length, the diameter fluctuated between 31.5 and 32.1 mm). The test rods were obtained from a melt composed of hematite iron 90% and steel (almost pure iron) 10%. The hematite iron had the following. Composition: '. I #I. Total carbon content 3.79 ° Silicon. . . . . . . . . . . . . . . . . Manganese. Sulfur ..................... 0.03; 0 Phosphorus. . . . . . . . . . . . . . . . . . . . 0.03 °, 'o Two rods A and B were produced from this melt and two further rods C and D were produced from the same melt in which 2 ° Jö of an iron-silicon-titanium alloy were dissolved; the alloy contained i 7% Ti.

Rod A was made from the unalloyed without any further treatment Melt won; it showed the usual pale crystalline fracture.

The rod B was cast from the same non-alloyed melt, after blowing carbon dioxide through the liquid metal for 2 minutes before casting was wien. The breakage was almost the same as that of rod A.

The test rod C was according to the invention from the melt, in the the titanium alloy indicated above was dissolved after blowing it through for 2 minutes poured of carbon dioxide through the molten metal; it shows a darker fraction, which clearly shows an extraordinary refinement of the graphite compared to the Samples A and B can be seen.

Finally, a test rod D was cast from the same melt in which the titanium alloy was dissolved, but without the oxidizing treatment according to the invention. The fracture is light crystalline and almost the same as that of rods A and B. The strength properties ai result as follows: Break through tensile strength Rod load meter kg, # 'qmm in kg A 7 0 1 31.8 31.8 B 783 3.2.1 34.5 C 879 32.0 39.0 D 761 31.5 3513 The oxidizing-treated cast iron with titanium content is therefore significantly superior to both ordinary cast iron without titanium and cast iron with an oxidizing treatment without titanium content, and finally to cast iron with titanium content (without oxidizing treatment). How this effect is to be explained by el @ s method of the invention, I cannot say with certainty at the moment; rdr, wüd'.ÄNomrnen that the titanium slag- "tilCtll.- affect the existing slag particles' @ rid.", probably in such a way that they envelop them with a more fluid slag and thereby reduce their inoculation effect.

It has now been shown that with 'the necessarily very short Duration of the oxidizing treatment the degree of refinement of the graphite hardly increases affect is; it turns out pretty much the same, very regularly extensive refinement of graphite. Now this refinement may be possible of the graphite go too far, while on the other hand that was not treated according to the invention Cast iron contains graphite in too coarse a form. To now intermediate stages in the refinement of graphite between the non-treated cast iron and that treated according to the invention Cast iron can be achieved within 1 to 2 minutes after the oxidizing treatment long hydrogen blown through the melt and thereby the graphite again something increased, according to the duration of the action of the hydrogen, so that this gives a means of refining the graphite as desired to steer. Instead of hydrogen, hydrogen-containing compounds, E.g. water, earth or hydrocarbons can be used. Any remaining Excess .an hydrogen is removed by allowing it to stand or by briefly blowing through it of air, nitrogen or carbon dioxide.

Claims (2)

PATLNTANsrr, ilci-iE: i. Method of producing high quality gray cast iron by adding titanium, characterized in that the melt after the addition of titanium, a short treatment with oxidizing gases or solid Is subjected to oxidizing agents. 2. The method according to claim i, characterized in that that after the oxidizing treatment, hydrogen or hydrogen-containing compounds be blown through the Schipelze for a short time (e.g. 1 to 2 minutes).