Aluminum-killed medium-carbon steel sheet for containers

Metal treatment – Stock – Ferrous

Reexamination Certificate

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Details

C148S320000

Reexamination Certificate

active

06776856

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a process for the preparation of aluminum-killed medium carbon steel sheets and the steel sheets prepared thereby, and in particular their use in the field of metal containers for food, non-food products or industrial purposes.
2. Discussion of the Background
Steels smelted for uses specific to metal containers differ from thin sheets, particularly in their physical characteristics.
The thicknesses of steel sheets for containers vary from 0.12 mm to 0.25 mm for the great majority of uses, but can reach greater thicknesses, as much as 0.49 mm, for very special applications. This is the case, for example, in certain containers for non-food products, such as certain aerosols, or in the case of certain industrial containers. The thickness can also be as small as 0.08 mm, in the case of food receptacles, for example.
Steel sheets for containers are usually coated with a metal coat (tin, which may or may not be remelted, or chrome), on which there is generally deposited an organic coat (varnish, inks, plastic films).
In the case of two-piece containers, these are made by deep-drawing under a blank holder or by deep-drawing/trimming for beverage cans, and are generally cylindrical or frustoconical, axially symmetric cans. Container designers are showing increasing interest in even thinner steels, however, with thickness from 0.12 mm to 0.075 mm and, with the objective of distinguishing themselves from-the competitors, they are trying to introduce increasingly more complex shapes. Thus one can now find cans of original shapes, manufactured from steel sheets of small thickness, which sheets, even though presenting greater forming difficulties, must meet the use criteria (mechanical durability of the containers, resistance to the axial load to which they are subjected during storage in stacks, resistance to the internal overpressure to which they are subjected during sterilizing heat treatment and to the internal partial vacuum to which they are subjected after cooling) and therefore must have very high mechanical strength.
Thus the use and performance of these containers depend on a variety of mechanical characteristics of the steel, including but not limited to:
coefficient of planar anisotropy, &Dgr;C aniso,
Lankford coefficient,
yield strength Re,
maximum rupture strength Rm,
elongation A %,
distributed elongation Ag %.
To impart to the container equivalent mechanical strength at smaller steel thickness, it is indispensable that the steel sheet present a higher maximum rupture strength.
It is known that containers can be made by using standard aluminum-killed medium-carbon and low-manganese steels.
The carbon content customarily sought for this type of steel ranges between 0.040% and 0.080%, because contents in excess of 0.080% lead to problems of electric weldability, which is a latent defect with respect to the production of three-piece food containers, the body of which is a welded shell. In addition, a high carbon content brings about difficulties in cold rolling. Contents of less than 0.040% bring about a decrease in the hardness of the steel.
The manganese is reduced as much as possible because of an unfavorable effect of this element on the value of the Lankford coefficient for steels not degassed under vacuum. Thus the manganese content sought ranges between 0.35 and 0.60%.
These steel sheets are made by cold rolling a hot strip to a cold-rolling ratio of between 75% and more than 90%, followed by continuous annealing at a temperature of between 640 and 700° C., and a second cold-rolling with a percentage elongation which varies between 2% and 45% during this second cold-rolling, depending on the desired level of maximum rupture strength Rm.
For aluminum-killed medium-carbon steels, however, high mechanical characteristics are associated with poor elongation capacity. This poor ductility, apart from the fact that it is unfavorable to forming of the container, leads during such forming to thinning of the walls, a phenomenon which will be unfavorable to the performances of the container.
Thus for example, an aluminum-killed medium-carbon steel with a maximum rupture strength Rm on the order of 550 MPa will have a percentage elongation A % on the order of only 1 to 3%.
SUMMARY OF THE INVENTION
Accordingly, one objective of the present invention is to provide an aluminum-killed medium-carbon steel sheet for containers which has, at a level of maximum rupture strength equivalent to that of aluminum-killed medium-carbon steels of the prior art, a higher percentage elongation A %.
A further objective of the present invention is to provide a process for production of the above-noted aluminum-killed medium-carbon steel sheet.
These and other objects of the present invention have been satisfied by the discovery of A process for manufacturing an aluminum-killed medium-carbon steel strip comprising:
supplying a hot-rolled steel strip comprising by weight from 0.040 to 0.080% of carbon, from 0.35 to 0.50% of manganese, from 0.040% to 0.070 of aluminum, from 0.0035 to 0.0060% of nitrogen, and the remainder being iron and trace impurities,
passing the strip through a first cold-rolling, and
annealing the cold-rolled strip;
wherein the annealing step is a continuous annealing using a cycle comprising a temperature rise up to a first temperature higher than an onset temperature of pearlitic transformation Ac
1
, holding the strip above the first temperature for a duration of longer than 10 seconds, and rapidly cooling the strip to a second temperature of below 350° C. at a cooling rate in excess of 100° C. per second.


REFERENCES:
patent: 3615925 (1971-10-01), Garber et al.
patent: 3865645 (1975-02-01), Takahashi et al.
patent: 4113523 (1978-09-01), Uchida et al.
patent: 6398887 (2002-06-01), Bouzekri
patent: 6478901 (2002-11-01), Bouzekri
patent: 19622164 (1997-05-01), None
patent: 1071197 (1986-02-01), None
patent: 906 961 (1999-04-01), None
patent: 01184229 (1989-07-01), None

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