Specialized metallurgical processes – compositions for use therei – Processes – Producing or treating free metal
Reexamination Certificate
2002-08-08
2004-07-20
Andrews, Melvyn (Department: 1742)
Specialized metallurgical processes, compositions for use therei
Processes
Producing or treating free metal
C075S512000, C148S541000, C148S625000, C164S055100, C164S056100, C164S057100
Reexamination Certificate
active
06764528
ABSTRACT:
TECHNICAL FIELD
This invention concerns a method of producing a ultra low carbon steel at high nitrogen concentration, particularly, a ultra low carbon steel at high concentration of solid-solute N. The ultra low carbon steel at high nitrogen concentration can be applied, for example, with rolling to obtain a ultra low carbon steel sheets (thin steel sheets) of high age hardening property. The high nitrogen ultra low carbon steel sheets can be used for portions such as of automobile structural parts, which require structural strength, particularly, strength and/or rigidity upon deformation.
BACKGROUND ART
As one of steel sheets suitable, for example, to automobile structural parts, steel sheets which have favorable workability and can be improved for the strength by an aging heat treatment after once being formed (hereinafter referred to as age hardening property) have been proposed. In the steel sheets, the strength can be improved by applying forming such as press forming in a relatively soft state before the age hardening treatment into a desired shape and then applying an aging heat treatment such as baking. As the steel for use in sheets of this type, a ultra low carbon steel at C≦0.0050 mass % is considered suitable with a view point of the workability, and it has been proposed a composition in which solid solute N can be present, for example, by 0.0030 mass % or more, preferably, 0.0050 mass % or more in steel sheets with a view point of aging property.
However, for refining to form a steel of such excellent workability, Al is generally added in view of deoxidation (such a steel is referred to as aluminum killed steel). Further, for refining of crystal grain size in the ultra low carbon steel, a technique, for example, of adding Nb or B into the steel has often been adopted. Since the elements described above form nitrides, it is necessary for insuring solid solute N in the steel sheets, to control the nitrogen concentration for compensation of the nitrogen content that is converted into nitrides upon steel making. For example, in a case where Al concentration in the steel is 0.015 mass % or more, it is necessary for high N concentration of about 0.0120 mass % or more in order to ensure a sufficient content of solid solute N.
As a method of producing a steel of high N concentration, Japanese Patent Laid-Open No. 91317/1986 discloses a method of blowing a nitrogen gas from a submerged lance into a molten steel in a ladle refining furnace under an oxygen free atmosphere. However, since this method is a treatment in the ladle refining furnace, it is difficult to apply, for example, a vacuum degassing treatment, so that it is extremely difficulty to obtain a ultra low carbon steel.
On the other hand, for the method of producing a high N steel of conducting the vacuum degassing treatment, Japanese Patent Publication No. 34848/1980. Japanese Patent Laid-Open No. 25919/1981 and Japanese Patent Laid-Open No. 28319/1989 disclose methods of controlling the pressure in a vacuum vessel to a pressure equilibrated with an aimed N concentration after the vacuum degassing step, utilizing a nitrogen gas as a part or entire of a gas to be blown into a molten steel, and keeping for a predetermined period of time, thereby adding nitrogen sufficiently.
However, the nitrogen injection method by a nitrogen gas involves a drawback that the nitrogen increasing rate is slow. Particularly, in the steel material used for steel sheets to be worked, since Cr concentration is low different from stainless steel and the like, the nitrogen solubility is low and it is difficult to attain a processing speed suitable to industrial production. While the disclosed technique propose an attempt of increasing nitrogen up to an equilibrated nitrogen concentration by increasing the pressure in the vacuum vessel, this also requires a long time to reach the equilibrated nitrogen concentration when the initial nitrogen concentration is low.
For example, in a case of a pressure at 1×10
4
Pa in a vacuum vessel where the equilibrated nitrogen concentration is 0.0150 mass %, increase is only up to about 0.0100 mass % by a treatment for 15 min when the initial nitrogen concentration is about 0.0080 mass %. Accordingly, when the aimed nitrogen concentration is, for example, 0.0120 mass % or more as described above, it is extremely difficult to attain the aimed value by the injection of the nitrogen gas. Although the nitrogen concentration may be increased by increasing the pressure in the vacuum vessel, the pressure in the vacuum vessel as exceeding 2.0×10
4
Pa lowers a stirring force for the molten steel in a vacuum vessel or a ladle to hinder the homogeneity in the molten steel.
A method of blowing a nitrogen gas or a nitrogen-Ar gas mixture in a vacuum degassing apparatus under a reduced pressure to control the pressure in the vacuum vessel thereby controlling the nitrogen concentration in the molten steel has been disclosed in Japanese Patent Laid-Open No. 17321/2000, Japanese Patent Laid-Open No. 17322/2000, Japanese Patent Laid-Open No. 34513/2000 and Japanese Patent Laid-Open No. 100211/1996. However, like the techniques described previously, nitrogen increasing rate in the injection of nitrogen by the nitrogen gas is slow and it takes a long processing time in ordinary steels, which is not practical.
Further, Japanese Patent No. 2896302 discloses a technique of changing the pressure in a vacuum vessel and decreasing nitrogen to less than an aimed nitrogen concentration of a molten steel and then adding a nitrogen-containing alloy to conduct fine control as far as the aimed nitrogen concentration. To ensure the aimed nitrogen concentration by the addition of the nitrogen-containing alloy brings about the change of the steel composition by the alloy. For example, it results in a problem that the C concentration in the molten steel is increased by C contained in the alloy. At the same time, the nitrogen-containing alloy with controlled composition is expensive and it is difficult aside from special steels, to adopt such an uneconomical method for steel species as in steel sheets put to ordinary working that require mass production and production at reduced cost.
Further, Japanese Patent Laid-Open No. 216439/1995 discloses a method of blowing a nitrogen gas into a molten steel in primary decarburization refining and secondary vacuum decarburization refining thereby refining to form a steel at a high nitrogen content of 0.0100 mass % or more in a ultra low carbon steel at 0.0050 mass % or less. However, when the denitridation reaction along with the decarburizing treatment in the secondary refining is taken into consideration, this method requires addition of a great amount of nitrogen in total compared with a case of adding nitrogen only in the secondary refining. Accordingly, in conjunction with the low processing rate for the high nitrogen treatment, only low production efficiency can be expected by the gas in this method.
Further, it has been actually difficult to attain an N content of 0.0120 mass % or more in a ultra low carbon steel at: C≦0.005 mass % by any of the methods described above.
DISCLOSURE OF THE INVENTION
OBJECT OF THE INVENTION
This invention proposes a method of producing, at a reduced cost and with high productivity, a steel for obtaining a steel sheet to be worked which contains nitrogen at high concentration (solid-solute nitrogen) and ultra low carbon content. The steel obtained by the method according to this invention is served particularly for application use in which an aging heat treatment is applied for improving the strength after forming such as press forming and which is suitable as a rolling material for steel sheets having excellent age hardening property.
SUMMARY OF THE INVENTION
The present inventors have made earnest studies for attaining the foregoing object and, as a result, have found a new subject, in producing a high nitrogen steel in a ultra low carbon aluminum killed steel, that AlN is precipitated to cause AlN-induced surface crackings in cast slabs or
Masumoto Yasuyuki
Nabeshima Seiji
Nabeshima Yuki
Ogawa Hisashi
Takeuchi Shuji
Andrews Melvyn
JFE Steel Corporation
Piper Rudnick LLP
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