KR20090053422A - Complicated code for tire and tire using the same - Google Patents

Abstract

The present invention is a composite steel cord of 1ⅹn (n = 2 ~ 6), 2 + m (m = 1 ~ 6) structure, the composite steel cord is a tire reinforcement composite steel cord comprising at least one organic fiber filament and The present invention relates to a radial tire using the same. The composite steel cord according to the present invention uses organic fiber filaments that are relatively lighter than metal filaments to achieve low fuel consumption, and further improve elongation and rubber permeability due to organic fiber filaments.

Composite steel cord, organic fiber filament, metal filament, rubber permeability, fretting wear

Description

Complex code for tire and tire using the same

The present invention relates to a composite cord for tire reinforcement and a radial tire using the same. More specifically, in the composite steel cord having a structure of 1ⅹn (n = 2 ~ 6) and 2 + m (m = 1 ~ 6), the composite A steel cord is a composite cord for tire reinforcement comprising at least one organic fiber filament and at least one metal filament, and a radial tire using the same.

Steel cords currently used in tires are manufactured by stranding several strands of metal filaments and covering them with a rubber layer.In general, wire cords having a diameter of 0.1 mm to 0.4 mm are made of carbon steel having a carbon content of 0.7 to 1.0 wt%. After alloy plating 1 to 4 elements selected from copper, zinc, nickel, cobalt, and tin having a thickness of 0.1 to 0.4 μm, such wires may be used in various structures (1 × 3, 1 × 4, 2 + 2, 2 + 7, 3 + 6, 3 + 9 + 15, etc.), which is superior in strength, modulus, heat resistance and fatigue resistance to other types of inorganic and organic fibers, reinforcing rubber products such as tires and conveyor belts. It is used for.

The conventional steel cord structure is a two-layer (core cord + side cord) structure in which a core cord is prepared by simply twisting two or three filaments with each other and a side cord is twisted with 4 to 10 strands of filaments. It is widely used for reinforcing the belt part and the carcass part of heavy load tires, such as a lorry and a bus. As mentioned above, since steel cord is used as a reinforcement material for tires, it should be excellent in adhesion with rubber, which is a heterogeneous material, and should be excellent in the harsh environment formed while driving a vehicle. It has been tilted. Steel cords currently commonly used in tires are manufactured by stranding several strands of metal filaments and covering a rubber layer thereon, which forms a brass plated layer on the wire surface for adhesion with the rubber layer.

Structures generally used are 1ⅹ2, 1ⅹ3, 2 + 1, and 2 + 2 structures. Recently, high-strength steel cords have been used and developed for low-fuel tires through lightweight tires, but the limits have been reached. In addition, due to the simplification of the structure, that is, the decrease in the number of filaments, the durability of the adhesive force with the rubber is lowered.

On the other hand, the Republic of Korea Application Publication No. 2000-0074367 proposed a steel cord made of a monofilament, but the mold to increase the adhesion and elongation to the monofilament, but the effect is judged to be insignificant.

One object of the present invention for solving the problems of the prior art described above is to provide a composite steel cord for tire reinforcement and a radial tire using the same for realizing tire weight reduction and increasing structural elongation and tensile strength of the steel cord.

One aspect of the present invention for achieving the above object is

As a composite steel cord of 1ⅹn (n = 2 ~ 6), 2 + m (m = 1 ~ 6) structure. The composite steel cord relates to a composite steel cord for tire reinforcement comprising at least one organic fiber filament and at least one metal filament.

In another aspect the present invention relates to a pneumatic radial tire wherein the composite steel cord is used in one or more of the carcass portion, the sowing portion and the belt portion.

The composite steel cord of the present invention achieves low fuel consumption by using organic fiber filaments which are relatively lighter than metal filaments, and also improves elongation and rubber penetration by organic fiber filaments.

The composite steel cord for reinforcing tires of the present invention is a composite steel cord having a structure of 1 n (n = 2 to 6) and 2 + m (m = 1 to 6). The composite steel cord is characterized in that it comprises at least one organic fiber filament and at least one metal filament.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing a composite steel cord including an organic fiber filament according to an embodiment of the present invention, referring to this, the steel cord according to the present invention includes two metal filaments 1 and one organic fiber filament 2 ) Is twisted into a structure of 1ⅹ3.

Composite steel cord of the present invention can be produced by replacing one or more metal filaments with organic fibers in the structure of 1ⅹn (n = 2 ~ 6), 2 + m (m = 1 ~ 6).

Composite steel cord of the present invention can be produced by stranded wire with one organic filament monofilament to one metal filament.

In addition, the composite steel cord of the present invention can be produced by replacing the one to two metal filaments with organic fibers in a steel cord consisting of three existing metal filaments in 1ⅹ3, 2 + 1 structure.

Conventional monofilament cord is a steel cord composed of one metal filament, which has only mechanical elongation and is very vulnerable to fatigue performance and impact resistance, but the composite steel cord of the present invention including the organic fiber monofilament has structural elongation and tensile strength. It is very good at, and because the weight per unit length is relatively small, it shows the effect of reducing tire weight and improving fuel economy by reducing steel cord weight.

Composite cords containing organic fiber filaments have a relatively easy rubber penetration into the composite cords compared to steel cords consisting only of metal filaments, which reduces frets and does not corrode well due to moisture, salt, etc. Durability is improved.

In the composite steel cord of the present invention, one or more organic fiber filaments may be used.

The organic fiber filament is nylon-6. Nylon-66, polyester, rayon, Kevlar, aramid, glass fibers may be one or more monofilament or multifilament selected from the group.

The organic fiber filament may serve as a core wire, and should have a strength and elongation sufficient to replace the metal filament.

The organic fiber filament is preferably used 200 to 800 denier.

In the present invention, the metal filament may be used that is commonly used in steel cord, preferably carbon steel or stainless steel made of 0.7 to 1.0% by weight of carbon.

It is preferable that the said metal filament diameter d1 and the organic fiber filament diameter d2 are 0.2-0.8 mm, and it is more preferable that it is 0.2-0.5 mm.

The diameter of the organic fiber and the metal filament is preferably the same, but other diameters may be used depending on the conditions.

It is preferable that the twist period of the organic fiber and the metal filament is 4 to 40 mm.

Meanwhile, the composite steel cord according to the present invention may be used as a reinforcing steel cord of at least one of a carcass portion, a belt portion, and a soaking portion of a pneumatic radial tire.

Hereinafter, the present invention will be described in more detail with reference to specific examples and comparative examples. However, this is for the purpose of explanation and the present invention is not limited thereto.

Example  One

It was composed of two metal filaments and one aramid (350 denia / 2, 150 turn per meter) having a carbon content of 0.8 wt%, and a twist length was 16 mm to prepare a cord.

Example  2

It was composed of two metal filaments and one aramid (350 denia / 2, 150 turn per meter) having a carbon content of 0.92% by weight, and a twist length was 16 mm to prepare a cord.

Comparative example

It was composed of three metal filaments having a carbon content of 0.82% by weight, and a twist length was 16 mm to prepare a cord.

The physical property values shown in Table 1 are shown by converting them into percentage values compared to the comparative example.

[Measurement Method]

* Elongation at break was measured by ASTM D 2969.

* Aging adhesive strength was measured by ASTM D 2229 after immersing the rubber composition containing the steel cord of the example in saline for 3 weeks.

* Initial rubber adhesion was measured by ASTM D2229-99 of Instron at 150 ° C x 30min vulcanization conditions.

 According to Table 1, Examples 1 and 2 have a unit weight (g / m) of about 29% less than the comparative example, the cutting strength is about 6% smaller, about 10% good for the initial and aging adhesion It can be seen that.

1 is a cross-sectional view showing a composite steel cord including an organic fiber filament according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

1: metal filament 2: organic fiber filament

d1: metal filament diameter d2: organic fiber filament diameter

Claims (6)

A composite steel cord having a structure of 1 n (n = 2-6) and 2 + m (m = 1-6), wherein the composite steel cord includes at least one organic fiber filament and at least one metal filament Composite steel cord for reinforcement. The method of claim 1, wherein the organic fiber filament is nylon-6. Nylon-66, polyester, rayon, Kevlar, aramid, glass fiber reinforced composite steel cord, characterized in that at least one monofilament or multifilament selected from the group consisting of glass fibers. The composite steel cord for tire reinforcement according to claim 1, wherein the metal filament diameter d1 and the organic fiber filament diameter d2 are 0.2 to 0.8 mm. The composite steel cord for reinforcing tires according to claim 1, wherein the twist period of the organic fibers and the metal filaments is 4 to 40 mm. The composite steel cord for tire reinforcement according to claim 1, wherein the organic fiber filaments are 200 to 800 denier. A pneumatic radial tire, characterized in that the composite steel cord produced according to any one of claims 1 to 5 is used for at least one of a carcass portion, a sieving portion and a belt portion.

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