Production method of ultra fine grain steel

Details Production method of ultra fine grain steel Production method of ultra fine grain steel

2000-02-24

2002-10-15

Ip, Sikyin (Department: 1742)

Metal treatment

Process of modifying or maintaining internal physical...

Heating or cooling of solid metal

C148S654000

Reexamination Certificate

active

06464807

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a production method of a ultra fine grain steel. More specifically, the invention relates to a method of producing a ultra fine grain steel useful as a welding steel having a high strength.
BACKGROUND OF THE INVENTION
Hitherto, a controlled rolling-accelerated cooling technique is an effective method for obtaining fine ferrite in a low-alloy steel. That is, by controlling a cumulative percentage of reduction in an austenite non-recrystallization region and the cooling rate thereafter, a fine grain has been obtained. However, the ferrite grain size obtained is at most 10 &mgr;m in an Si-Mn steel and at most 5 &mgr;m in an Nb steel as the limits. Furthermore, as described in Japanese Patent Publication Nos. 39228/1987 and 7247/1987, it is reported that by adding a reduction that the sum total area reduction ratio of 75% or higher in the temperature range of Ar1 to Ar3+100° C. including a 2-phase region and thereafter cooling at a cooling rate of at least 20 K/second, ferrite grains having grain sizes of from about 3 to 4 &mgr;m are obtained. However, as is mentioned in, for example, Japanese Patent Publication No. 65564/1993, for obtaining ferrite grains having grain sizes of smaller than 3 &mgr;m, very large reduction amount and cooling rate (at least 40 K/second) are required. Quenching of the cooling rate of at least 20 K/second is a means capable of being realized only in the case of a thin sheet thickness and cannot be realized for the production method of steels for general welding structure, which is widely and practically used. Also, with regard to strong working itself, in roll rolling, it is generally difficult to carry out a large reduction exceeding 50% at an austenite low-temperature range because the extent of the deformation resistance and the restriction on one pen rolling. Also, for the cumulative reduction in a non-recrystallization region, at least 70% of reduction is necessary in general, which is also difficult because of the temperature lowering of steel sheet.
It is known that a ferrite grain structure of a control-rolled steel generally has an strong texture, and the ferrite grains obtained as the result of a strong reduction becomes to have a small angle grain boundary. That is, by simple strong working, an strong texture is formed and ferrite grains made of a large angle grain boundary cannot be obtained. Accordingly, even when strong working higher than those shown in Japanese Patent Publication Nos. 39228/1987 and 7247/1987 is carried out, it is difficult to obtain a fine ferrite grain structure made of a large angle grain boundary.
Under such circumstances, the present inventors previously developed methods of obtaining a ultra fine grain steel made of ferrite having a mean grain size of not larger than 3 &mgr;m as the base phase, after austenitizing raw materials by heating to a temperature of at least an Ac 3 point, applying compression working of the reduction ratio of at least 50% at a temperature of at least the Ar 3 point and cooling (Japanese Patent Application Nos. 256682/1997, 256802/1997, and 52545/1998). By this new production methods, it becomes possible to provide a ultra fine grain steel made of, as the base phase, ferrite having a mean grain size of not larger than 3 &mgr;m and surrounded by a large angle grain boundary of an Disorientation of at least 15°.
However, a further improvement has been practically desired on these new methods. This is because it is desirable to obtain a finer grain and also, from the industrial viewpoint, the deformation resistance at hot working is desirably as low as possible. In particular, when working of at least 50% is carried out in an austenite low-temperature range by one pass, the deformation resistance is large and it is desirable to lower the resistance as low as possible. That is, in regard to obtain ferrite having a mean grain size of not larger than 3 &mgr;m, and preferably not larger than 2 &mgr;m as the main phase by working at an austenite low-temperature range and control cooling, it can be said that a new method capable of producing a ultra fine grain steel made of ferrite having a mean grain size of not larger than 3 &mgr;m, preferably not larger than 2 &mgr;m as the main phase under a lower deformation resistance, by a less reduction amount, and by a particularly slow cooling rate has been required.
SUMMARY OF THE INVENTION
The present invention has been made under the circumstances as described above and to provide a new method of producing a ultra fine grain steel made of ferrite having a mean grain size of not larger than 3 &mgr;m, preferably not larger than 2 &mgr;m as the base phase under a lower deformation resistance, by a less reduction amount, and by a particularly slow cooling rate.
That is, a 1st aspect of the invention provides a method of producing a ultra fine grain steel made of ferrite having a mean grain size of not larger than 3 &mgr;m, after ingoting raw materials, by austenitizing the ingot by heating it to a temperature of at least an Ac 3 point, then, applying compression working of at least a reduction ratio of at least 50% at a temperature of from an Ae 3 point or lower to an Ar 3 point −150° C., or to a temperature of at least 550° C., and thereafter, cooling, wherein the strain rate as compression working is in the range of from 0.001 to 10/second.
A 2nd aspect of the invention provides the ultra fine grain steel made of ferrite having a mean grain size of not larger than 2 &mgr;m as the base phase produced by the method described above.
A 3rd aspect of the invention provides the production method of the aspect 1 wherein the strain rate is in the range of from 0.01 to 1/second.
Also, a 4th aspect of the invention provides the production method of the aspect 1 wherein the cooling rate after working is not higher than 10 K/second.


REFERENCES:
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patent: 6221178 (2001-04-01), Torizuka et al.
patent: 58123823 (1983-07-01), None
A. Najafi-Zadeh, J.J. Jonas, and S. Yue, Grain refinement by dynamic recrystallization during the simulated warm-rolling of interstitial free steels, Metallurgical Transactions A, vol. 23A Sep. 1992, 2607-2617.*
Torizuka, S.; Umezawa, O.; Tsuzaki, K.; Nagai, K., Refinement of ferrite-pearlite structures through transformation from heavily deformed austenite in a lowearbon Si-Mn Steel, Mater. Sci. Forum, (1998), 284-286, 225-230 (abstract only).*
Xu, Zhou; Taku, Sakai, Effect of hot deformation on the ferrite grain size of Ti-bearing interstitial-free steel, Jixie Gongcheng Cailiao (1997), 21(2), 7-9, 18 (abstract only).

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