DE2353034B2 - Process for improving the mechanical strength values of rolled steel products - Google Patents

Description

The invention relates to a method of the type identified in the preamble of claim 1.

A method of this type is known from DE-OS 21 08 314. After that, immediately following the last stand of a rolling mill, a water quenching down to a superficial temperature of approx. 150 ^° C. and a subsequent cooling in still air should be carried out, the cooling from a temperature above the A3 point Temperature, for example from 1000 ⁰ C, and the core temperature is reduced to 800 ⁰ C. In the case of water quenching, a non-uniform structure initially arises which, due to the subsequent slow cooling and the associated homogenization of the temperature to about 650 ^° C., undergoes a relatively uniform design over the cross-section. Starting from the balanced temperature cooling continues in still air until the rolled about 500 ⁰ C adopted, followed by intensified cooling followed in a water bath until a temperature of about 100 ° C is reached. Overall, a homogeneous pearlitic, fine-striped structure is formed.

Furthermore, according to "Stahl und Eisen" 1965, pages 1452/53, it is known to harden bar steel from the rolling heat for the purpose of increasing the strength, with water being used for the quenching. The finish rolling temperature is 950 ° C of the steel bar, while one starts for the deterrence of 88O ⁰ C. With a 70 mm thick round profile, the core zone during quench hardening definitely reaches a temperature below that of the martensite transformation, i.e. below 50O ⁰ C, because martensite formation occurs in the core zone.The latter amounts to 15% of the total structure, while 10% of the structure is ferrite and the remainder are intermediate structures. From the corresponding time-temperature conversion graphs it can be concluded that a thorough hardening has thus taken place

According to Mitt from the Kaiser Wilhelm Institute for Iron Research in Düsseldorf, Volume XXI, 1939, page 187, the increase in the quenching effect of water by adding sodium hydroxide solution or table salt is also known. Salts, for example sodium tetraborate or sodium water glass, are also known DE-OS 22 05 395 proposed as additives for: cooling liquid when quenching steel; the cooling should take place in two stages, the temperature ^{not falling below 750 °} C. within the first stage in order to influence the austenite grain size, whereupon the second cooling takes place

Starting from the state of the art referred to in the introduction, the invention is based on the object to increase the strength of the hot-rolled steel bars and to increase its ductility. He should thus, above all, according to the main property requirements placed on round or reinforcement profiles high yield strength with sufficient, application-oriented

jo related weldability and fatigue strength

The malleability and weldability of a steel can be determined by reducing its content Decrease carbon and manganese, but go with it

r> the tensile strength and that after rolling through Quenching treatment back achievable yield strength. The yield point can be increased by adding Micro-alloy elements such as Nb and V increase, but there is a significant cost involved.

The proposal made in the characterizing part of claim 1, which is further developed by the proposals of subclaims 2 to 4, serves to solve the problem according to the invention.
In the method according to the invention, over

4 ^r> the whole cross section as opposed to the generic state of the art does not produce a uniform structure anymore, but it will respect core zones and edge zones differentiated designed grain areas.

51) After quenching, the microstructure of the surface zone of martensite or bainite, the core zone still whereas a temperature of about 850 ⁰ C. Under the action of the heat content of the core zone given by said temperature, the edge zone then experiences a self-tempering process, its structure changing into tempered martensite or tempered bainite. While the edge zone is tempered in this form, it comes to such a cooling for the core zone that you

w) original, austenitic structure, in ferrites and Carbide is converted. The temperature in the workpiece core is limited for self-tempering so that that there is martensite or, in the extreme, bainite in the edge zone; thus it is definitely excluded that the edge zone becomes pearlitic.

To obtain comparable values for tensile strength, ductility and, last but not least, weldability in other ways to achieve one would have to use the levels

Increase carbon or manganese, which would fail because of the requirement for good weldability, so that additional Nb and V would have to be introduced. Otherwise you would have to use the Cold-worked steels undergo a cold-working process provide. In contrast, the steels treated according to the invention can be used directly.

In addition to water, aqueous suspensions or solutions of substances such as mineral salts or tension-active elements can be used as the cooling liquid. For example, a steel in which the treatment is carried out in 0.55 seconds has a yield strength of 55 kg / mm ² with a low heat transfer coefficient, while it has a high heat transfer coefficient! 65 kg / mm ² , the cooling section only needing to be short in length.

Using the example below, the improvement in the quality achieved by round profiles is included Application of the method according to the invention can be seen. The rolled products examined are reinforcing steels of 12 mm diameter of the following composition:

carbon 0.24% manganese 1.38% silicon 0.08% aluminum 0.002% sulfur 0.020% iron rest

In the as-rolled condition, those in question have Round profiles have the following properties:

Yield point. (R _c y. 35 ± 1 kg / mm ² Tensile strength (R _n ,): 58 ± 2 kg / mm ² Elongation (A): 33 ± 2%.

After the treatment according to the invention by passing through a water cooling section with high In contrast, the heat transfer coefficient has the following properties:

Dwell time on the
Cooling section

KG / mm?

50
75

27
19th

0.75
0.85

The structure has the differentiated training described.

The F i g. 1 shows the hardness profile of the steel over the radius of a cross section of a round profile treated according to the invention. The hardness value is shown on the ordinate, while the abscissa shows the distances (d) from the surface of the round profile.

The micrograph according to FIG. 2a shows a cross section through a round profile treated according to the invention; the F i g. 2b and 2c show the martensitic zone and the zone of ferrites and carbides within the Surface layer or the core of this round profile (magnification: 500 times).

For this purpose 2 sheets of drawings

Claims (4)

Patent claims: 1. A method for increasing the strength and improving the deformability of hot-rolled bars made of killed, semi-killed or unkilled steel, in which the bars are subjected to a surface quenching from the rolling heat on the exit side of the finishing stand by means of a cooling liquid and then further cooled, characterized in that carried out the quenching such rugged, that in the rod immediately after quenching a surface zone of martensite and bainite is present, while the temperature in the core is still about 850 ⁰ C, and that the remaining in the rod core heat content during the subsequent cooling tempering of the peripheral zone not effected via the bainite stage. 2. The method according to claim 1, characterized in that the cooling liquid used is water is. 3. The method according to claim 2, characterized in that the water is in suspension or solution Substances such as B. contains mineral salts or tension-active elements. 4. The method according to claim 1 to 3, characterized in that cooling liquids with high Heat transfer coefficient compared to steel can be used.