The present invention relates to a method for manufacturing a brass-plated steel wire (hereinafter, also simply referred to as “manufacturing method”) and a brass-plated steel wire, and more particularly, to a method for manufacturing a brass-plated steel wire in which improvement in the quality of the brass-plated steel wire and energy saving in the manufacturing process are balanced and a brass-plated steel wire obtained by the method.
In a manufacturing process of a brass-plated steel wire represented by a steel cord of a reinforcing material for tires, a pre-drawing is performed generally by dry drawing, and then, a perlite steel structure is built by a patenting thermal treatment, followed by brass plating on the surface of a steel wire rod, and the steel wire rod is subjected to a wet drawing which is a final wire drawing process. As a means for brass plating, a thermal diffusion plating method in which zinc plating is performed on a copper plated layer, and then a brass-plated layer is created by thermal diffusion, is generally employed.
Examples of a technique relating to improvement of a method for manufacturing a brass-plated steel wire include Patent Document 1. Patent Document 1 relates to a method for manufacturing a brass plated bead wire in which a steel wire is plated with copper and zinc sequentially, and then a thermal treatment which corrects wire drawing strain and a thermal diffusion of copper and zinc plated on the steel wire are simultaneously allowed to proceed, and thereafter, the steel wire is subjected to a pickling treatment by an inorganic acid. A brass plated bead wire in which the adhesive properties with rubber are improved without compromising the mechanical properties can thus be obtained.
Patent Document 1: Japanese Patent No. 2872682
As a reinforcing material for tires, other than bead wires, a steel cord is often used. In recent years, the performance of a tire is improved, and the quality of a brass-plated steel wire for a steel cord other than a bead wire is desired to be improved. Energy saving in the manufacturing process of a brass-plated steel wire for a steel cord, maintenance of manufacturing facilities or like is also an important issue.
Accordingly, an object of the present invention is to provide a method for manufacturing a brass-plated steel wire in which improvement in the quality of the brass-plated steel wire and energy saving in the manufacturing process are balanced, and a brass-plated steel wire obtained by the method.
In order to solve the above-mentioned problems, the present inventor intensively studied a method for manufacturing a brass-plated steel wire to discover the following findings. That is, lubricity in a final wire drawing process is compromised due to zinc oxide generated on the surface of a steel wire by a thermal treatment after plating treatment, and as the result, loss of power consumption due to increase in a drawing force is produced. In addition, since lubricity is compromised due to zinc oxide on the surface of a brass-plated steel wire, friction between the brass-plated steel wire and a die increases, thereby reducing the quality of the brass-plated steel wire. Further, a harmful effect such as shortening of lifetime of a die is demonstrated.
The present inventor intensively studied further on the basis of the above-mentioned findings to find that the above-mentioned problems can be resolved by removing zinc oxide on the surface of a brass-plated steel wire rod before the final wire drawing process of the brass-plated steel wire rod, thereby completing the present invention.
In other words, a manufacturing process of a brass-plated steel wire of the present invention is
a method for manufacturing a brass-plated steel wire comprising a plating process in which a steel wire rod is brass plated and a final wire drawing process in which the obtained brass-plated steel wire rod is subjected to a final drawing, the method comprising
a zinc oxide removing process in which the amount of zinc oxide on the surface of the brass-plated steel wire rod is made smaller than 50 mg/m2 before the final wire drawing process.
In the manufacturing method of the present invention, preferably, the plating process comprises a process in which copper and zinc are sequentially plated and thereafter, a thermal treatment is performed. In the manufacturing method of the present invention, preferably, zinc oxide removal in the zinc oxide removing process is performed by a pickling treatment. Further, in the manufacturing method of the present invention, preferably, a cleaning liquid used for the pickling treatment is a phosphoric acid solution. Still further, in the manufacturing method of the present invention, preferably, the concentration of the phosphoric acid solution and acid treatment time satisfy the relationship represented by the following expression:
phosphate concentration(g/L)×treatment time(s)>5.0 (g/L·s).
In the manufacturing method of the present invention, preferably, the amount of zinc oxide on the surface of the brass-plated steel wire rod is not smaller than 10 and smaller than 50 mg/m2. Further, in the manufacturing method of the present invention, preferably, the diameter of the brass-plated steel wire is not larger than 0.6 mm. Still further, in the manufacturing method of the present invention, preferably, the thickness of a brass-plated layer on the surface of the brass-plated steel wire is not larger than 20 μm. In the manufacturing method of the present invention, preferably, the final drawing is wet drawing.
The brass-plated steel wire of the present invention is a brass-plated steel wire manufactured by the manufacturing process of a brass-plated steel wire of the present invention.
According to the present invention, a method for manufacturing a brass-plated steel wire in which improvement in the quality of the brass-plated steel wire and energy saving in the manufacturing process are balanced and a brass-plated steel wire obtained by the method can be provided.
A manufacturing process of a brass-plated steel wire of the present invention will be describe in detail by using the Drawings.
The manufacturing process of a brass-plated steel wire of the present invention comprises a plating process in which a steel wire rod is brass plated, and a final wire drawing process in which the obtained brass-plated steel wire rod is subjected to a final drawing.
It is important that the manufacturing method of the present invention comprises a zinc oxide removing process in which the amount of zinc oxide of the surface of a brass-plated steel wire rod is made smaller than 50 mg/m2, specifically not smaller than 10 and smaller than 50 mg/m2 before the final wire drawing process (in
In the manufacturing method of the present invention, a zinc oxide removing means in a zinc oxide removing process before final drawing is not particularly restricted, and preferably, the zinc oxide removing is performed by a pickling treatment. An acid which is used in the pickling treatment is also not particularly restricted, and a phosphoric acid is preferably used. When hydrochloric acid is used, hydrochloric acid is mixed into an atmosphere of the manufacturing process and corrodes the steel wire, whereby deterioration in adhesive force or mechanical properties may by caused. As a result, management of preventing dissipation of hydrogen chloride is needed. Since, when sulfuric acid is used, hydrogen embrittlement is caused by a trace amount of remaining sulfuric acid and fatigability deteriorates, a water washing equipment in which acid removal can be sufficiently performed after pickling is needed. From such a standpoint, a preferred inorganic acid is phosphoric acid. Phosphoric acid does not dissipate in an atmosphere, and hydrogen embrittlement is not caused, and even when phosphoric acid is left on a steel wire, phosphoric acid changes into a phosphate, thereby not having an influence on adhesion, which is advantageous.
In the manufacturing method of the present invention, when pickling which uses phosphoric acid as a zinc oxide removing means is adopted, the concentration and cleaning time of phosphoric acid are not particularly restricted, and preferably the concentration and pickling treatment time of phosphoric acid preferably satisfy the following relational expression:
phosphate concentration(g/L)×treatment time(s)>5.0(g/L·s).
By satisfying the above relational expression, the amount of zinc oxide on the brass-plated steel wire rod can be sufficiently reduced.
In the manufacturing method of the present invention, a means for brass plating a steel wire rod is not particularly restricted. As illustrated in
The steel wire rod which is used in a manufacturing process of a brass-plated steel wire of the present invention may be any steel wire rod as long as it is normally used for a steel cord. Any diameter or material of the steel wire rod may be used as long as it is known, and suitably, a high carbon steel wire having a carbon content of 0.70% by mass or higher is used as the steel wire rod. Regarding the drawing process, a drawing condition or the like is not particularly limited as long as wire drawing is performed in accordance with a conventional method by using a wire drawing machine which is normally used in a drawing process of a steel wire rod.
Next, a brass-plated steel wire of the present invention will be described.
The brass-plated steel wire of the present invention is obtained by the above-mentioned manufacturing method of the present invention. The brass-plated steel wire of the present invention is suitably used for a steel cord. The brass-plated steel wire of the present invention is suitable for a reinforcing material for tires. The brass-plated steel wire of the present invention may be used as a monofilament cord, or a plurality of the brass-plated steel wires of the present invention may be twisted together to be used as a twisted cord.
In the following, the manufacturing method of the present invention will be described in detail by using Examples.
A high carbon steel wire rod having a diameter of 1.86 mm and a carbon content of 0.82% by mass was subjected to dry drawing and drawn to a diameter of 0.36 mm. Next, the obtained high carbon steel wire rod was subjected to copper plating and zinc plating sequentially, and a brass-plated high carbon steel wire rod was obtained by a thermal diffusion treatment. The obtained brass-plated high carbon steel wire rod was subjected to a pickling treatment by phosphoric acid in conditions listed on Table 1 below. The amount of zinc oxide which was remained on the surface of the brass-plated steel wire rod after the pickling treatment is listed on Table 1 in combination.
The amount of zinc oxide which was remained on the surface of the brass-plated steel wire rod was determined in a similar manner to Example 1 except that a pickling treatment by phosphoric acid was not performed. The results are listed on Table 1 in combination.
The brass-plated steel wire rod after the pickling treatment is subjected to wet drawing. The lifetime of the first die of a wet drawing machine and the decrease rate of power consumed by the wet drawing were evaluated as indices taking Conventional Example as a reference. The obtained results are listed on Table 1 in combination. Regarding the criteria in Table 1, when the lifetime of the die was 300 or longer and the power decreasing rate was 5 or higher, the evaluation was “⊚”; when the lifetime of the die was 200 or longer and shorter than 300 and the power decreasing rate was 3 or higher and lower than 5, the evaluation was “◯”; when the lifetime of the die was 100 or longer and shorter than 200 and the power decreasing rate was 1 or higher and lower than 2, the evaluation was “Δ”; when an improved effect was not found (when a pickling treatment was not performed), the evaluation was “x”.
The relationships between a drawing speed and a die reaction during wet drawing of brass-plated steel wire rods of Example 1 and Conventional Example are illustrated in
Table 1 shows that, by the manufacturing method of the present invention, the lifetime of a die is improved. This means that decrease in the quality of a brass-plated steel wire can be inhibited. It is also shown that the power consumption needed for wire drawing can be inhibited. Further,
Number | Date | Country | Kind |
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2011-249672 | Nov 2011 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2012/079034 | 11/8/2012 | WO | 00 | 5/15/2014 |