DE2126335C3 - Process with deoxidation for the production of easily machinable carbon steels - Google Patents

Description

X ₁ ■ (C% - 0.15) x 8 - ^ - CaSiAl

+ x ₂ ■ (0.65 - C%) · 8 - ^ - CaMnSiAl,

where X \ and Xi assume a value of ± 0.1

Si%

and Si% means the Si content of the corresponding oxidation agent,
that half of the total amount of the two deoxidation mixtures is put into the pan before tapping, the other half is put into the steel jet during tapping when the pan is filled, and that the CaMnSiAl ferro-alloy is always added first.

2. The method according to claim 1, characterized in that an annealing of the Dcsoxydationsmiltel to be added quit in the last eight hours before use and this means so too comminute are that the proportion of pieces under 10 mm is a maximum of 10% and the size of the largest Pieces is 120 mm.

The invention relates to a method with deoxidation for the production of carbon steels which are easy to machine with a maximum of 0.65% carbon content using CaSiAl or CaMnSiAI-Fcrrolcgicrungcn as Dcsoxydalionsmitlcl.

Methods of this ArI are known, in particular gehl the use of CaSiAI and CaMnSiAI Fcrrcik ·· alloys from I) I) -AS 12 5H4 33. Outgoing from the associated lluupianmeldiing DIi-AS 48 690, which uses a ferro alloy with up to 90% silicon, 0.5 to 40% calcium, 0.5 to 8% Manganese. The remainder of iron with the usual impurities is concerned, DE-AS 12 58 433 also discloses an I bis 1.5% aluminum content for a steel melt with an oxygen content of 0.004 to 0.1%.

While according to DE-AS 12 48 690 the task was to cut the machinable wedge of steels that are used in high cutting speeds are machined so / u improve that the steels over the entire area the cutting speeds occurring in practice result in an increased Wcrk / eugstaml / eii at dor DIl-AS 12 58 4JJ assumed the task be, the ferroalloy according to the DlI-AS 48 690 so far. that the the Tool wear-reducing coating regardless of the one on the tool tip during machining setting temperature.

It is known to those skilled in the art that the carbon steel The amount of deoxidizer to be added is related to the carbon content of the steel (see "Eisenhütte". 5th edition, 1% 1, p. 641; "Stahl und Eisen", I9f) 7. S. I2f> 2—1269. ! 969, pp.! 045-1082). With the Oxidized ferro alloys previously used ίο will "each time in a certain Schnillgeschwindigkcilsbercich a good machinability of the carbon steel and an increased service life of the tool achieved. If the strength of the processed steel is greater, then the pressure that occurs on the tool is be larger, and the lower and upper limits of the cutting speed range shift towards lower cutting speeds. The upper limit changes to a greater extent, so that the Cutting speed range also narrowed nocti will.

The invention is based on the object of machinability of carbon steels with a maximum of 0.65% carbon content by adhering to a special deoxidation process to be improved so that in each case, i. H. regardless of the C content in the specified limit, in one wide cutting speed range, a very effective, wear-reducing, non-metallic support arises on the carbide tool and the machinable wedge determined by the tool life in the in cutting speed on an evenly good level.

The object is achieved according to the invention by the features specified in the characterizing part of the main claim solved.

The further development of the subject matter of the invention emerges from the subclaim.

The advantages achieved with the invention are therein too see that inclusions are formed in carbon steel as a result of the special deoxidation process, which become malleable (plastic) at different temperatures and pressures. By the in the prescribed Ratio and dosing of the two deoxidizers in the prescribed order ensures that they are evenly distributed and that the high temperature strength of the steel remaining deoxidation products approximately proportional to the strength of the carbon steel will. This means that the tool protection cndc, non-metallic deposits with the • in practice common carbon steel wheels independently from the ('(iciiiilt in a broad cutting speed range arise, and there is a consistently good machinability over this area.

The procedure for carrying out the procedure is as follows: that half of the annealed Deoxydalionsmiltcl of medium size before parting of the steel in the tapping pan and the other half (C during parting when the pan is filled is given into the ray of steel. The CaMnSiAI control must always be added first. Is so for example the weight of this material is greater than the HnIfU! the total weight of the C content dependent Dcsoxidationszusai / cs. then that will CaMnSiAI with one of half of the total amount speaking weight in the pan and the remaining / u given to the Slahlslrahl, whereupon the CaSiAI ferroalloy follows.

Claims (1)

Patent claims: 1. Process with deoxidation for the production of easily machinable carbon steel sheets with max. 0.65% C content using CaSiAI or CaMnSiAI-Fcrrolcgicningen as Deoxidaliunsmillel. d a el ii rr h gckcnnv.ciclincl, dali the CaSiAl and CaMiiSiAl Ferrolcgicningcn can be used in combination, with CaSi-Al ferroalloy the Ca: Si weight percentage ratio between 1: 5 and 1:10. the Al: Si weight percent ratio is a maximum of 1:35, in the CaMnSiAi ferroalloy the Ca: Si ratio between 1:20 and 1:10, the Mn content is 10 until 20%. the Al content is a maximum of 13%, that the two deoxidizers depending on the C content of the steel to be produced after the following formula must be added: