BELTS WITH METAL PLIES FOR TYRES

Abstract

A belt for tyres comprising a ply made up of metal cords and two layers of tread ply skim arranged to cover the ply. The ply is coated with a protective composition comprising at least one cross-linkable unsaturated-chain polymer base and a surface-active compound. The protective composition is derived from an aqueous-based suspension applied to said ply. The tread ply skim comprises the same cross-linkable unsaturated-chain polymer base present within the protective composition.

Claims

1. A belt for tyres comprising a ply made up of metal cords and two layers of tread ply skim that are arranged to cover the ply; said belt being characterized in that said ply is coated with a protective composition comprising at least one cross-linkable unsaturated-chain polymer base and a surface-active compound; said protective composition being derived from an aqueous-based suspension applied to said ply and subsequently dried; said tread ply skim comprising the same cross-linkable unsaturated-chain polymer base present within said protective composition.

2. Belt according to claim 1, characterized in that the aqueous-based suspension comprises cobalt salts.

3. Belt according to claim 1, characterized in that the metal cords making up the ply comprise cobalt salts on the surface thereof.

4. Method for making belts for tyres; said method being characterized in that it comprises a covering step, wherein a ply made up of metal cords is coated with an aqueous-based suspension comprising at least one cross-linkable unsaturated-chain polymer base and a surfactant; a drying step wherein the water is removed from said aqueous-based suspension; and a calendering step wherein two tread ply skim layers are arranged on opposite sides of said body ply; each of the two tread ply skim layers comprising the same cross-linkable unsaturated-chain polymer base comprised within the aqueous-based suspension.

5. Method according to claim 4, characterized in that said covering step comprises an immersing operation of the ply within the aqueous-based suspension.

6. A tyre comprising the belt according to the present invention.

7. Belt according to claim 2, characterized in that the metal cords making up the ply comprise cobalt salts on the surface thereof.

Description

[0007] The object of the present invention is a belt for tyres comprising a ply made up of metal cords and two layers of tread ply skim that are arranged in such a way as to cover the ply; said belt being characterized in that said ply is coated with a protective composition comprising at least one cross-linkable unsaturated-chain polymer base and a surface-active compound; said protective composition being derived from an aqueous-based suspension applied to said ply and subsequently dried; said tread ply skim comprising the same cross-linkable unsaturated-chain polymer base present in said protective composition.

[0008] Here and hereinafter, the term cross-linkable unsaturated-chain polymer base refers to any natural or synthetic non-cross-linked polymer capable of assuming all of the chemical-physical and mechanical characteristics typically assumed by elastomers after cross-linking (vulcanization) with sulfur-based systems.

[0009] Preferably, the aqueous-based suspension comprises cobalt salts.

[0010] Preferably, the metal cords that make up the ply comprise cobalt salts on the surface thereof.

[0011] A further object of the present invention is a method of making belts for tyres; said method being characterized in that it comprises a covering step, wherein a ply made up of metal cords is coated with an aqueous-based suspension comprising at least one cross-linkable unsaturated-chain polymer base and a surfactant; a drying phase wherein the water is removed from said aqueous-based suspension; and a calendering step wherein two tread ply skim layers are arranged on opposite sides of the said ply; each of the two tread ply skim layers comprising the same cross-linkable unsaturated-chain polymer base included within the aqueous-based suspension.

[0012] Preferably, said covering step comprises an immersing operation of the ply within the aqueous-based suspension.

[0013] A still further object of the present invention is a tyre comprising the belt according to the present invention.

[0014] For a better understanding of the invention, the following examples are for illustrative and non-limiting purposes.

[0015] Three belt examples were made comprising the same ply made from metal cords. The first belt example (A) is a comparison example and comprises a ply made using metallic cords but not coated with the protective composition derived from the aqueous-based suspension; the second belt example (B) constitutes an example of the invention and differs from the comparison example A in that the ply has been coated with the protective composition deriving from the aqueous-based suspension and comprising cobalt salts; the third belt example (C) constitutes an example of the invention which differs from example B in that the aqueous-based suspension (and, therefore, the protective composition) does not comprise the cobalt salts which are instead present within the tread ply skim.

[0016] In Table I the composition in phr of the aqueous suspensions utilized in the belts of examples B and C is reported.

TABLE-US-00001 TABLE I Water 67% by weight with respect to the solid part Natural Rubber 100 Surfactant 2 Resin 20 Carbon black 10 ZnO 1 Sulfur 1 Accelerant 1 Cobalt salt* 0.88 *only present within the aqueous suspension related to belt B

[0017] The natural rubber is made up of a polymer base composed of natural origin cis-1,4-polyisoprene.

[0018] The surfactant utilized is CH.sub.3(CH.sub.2).sub.9CON(CH.sub.3)CH.sub.2COONa.

[0019] The resin utilized is a C5-C9 resin marketed under the name TACOLYN 100 by the Eastman company.

[0020] The accelerant utilized is N-tert-butyl-2-benzothiazyl-sulfenamide (TBBS).

[0021] The cobalt salt utilized is Co-boro neodecanoate.

[0022] Below, by way of example, a procedure for the preparation of the aqueous-based suspension is reported.

[0023] The suspensions were prepared by contemporaneously dispersing all of the ingredients reported in Table I within the volume of water such as to satisfy the percentage by weight indicated in Table I. The resulting aqueous solution was subjected to mechanical agitation for a period of time equal to 30 minutes, and thereafter, it was subjected to sonication for a period of time equal to 15 min.

[0024] The plies utilized for the example belts A-C were made using steel cords of 2+70.32 HT type.

[0025] In Table II the composition in phr of the tread ply skim compounds utilized for the example belts A-C is reported.

TABLE-US-00002 TABLE II Natural rubber 100 Carbon black 40 Sulfur 7 accelerator 1.5 Cobalt salt* 0.88 *absent from the tread ply skim compound related to belt B

[0026] The specifications of the ingredients are the same as described in reference to Table I

[0027] Below, a procedure for the preparation of the tread ply skim compounds is reported.

[0028] (1.sup.st Mixing Step)

[0029] Before the start of the mixing, a mixer with tangential rotors (commonly called Banbury) and an internal volume of between 230 and 270 liters was loaded with the polymer base, the reinforcing filler and, where required, the cobalt salts, reaching a fill factor of 66-72%.

[0030] The mixer was operated at a speed of 40-60 rpm, and the mixture thus formed was discharged once a temperature of 140-160 C. had been reached.

[0031] (2.sup.nd Mixing Step)

[0032] The vulcanization system was added to the mixture obtained from the previous step, reaching a fill factor of 63-67%.

[0033] The mixer was operated at a speed of 20-40 rpm, and the mixture thus formed was discharged once a temperature of 100-110 C. had been reached.

[0034] For examples B and C the plies made using the cords as defined above (for the A-C example belts the same type of ply was utilized) were subjected to a covering step wherein they were immersed within the respective aqueous suspensions thereof. After being placed under immersion and left for a period of time equal to 10 seconds, the plies were subjected to a drying process in order to remove the water and in order to leave the plies themselves coated with the solid part of the suspension that makes up the protective composition, object of the present invention.

[0035] At this point the plies were arranged between two layers of the compound as reported in Table II and the whole was subjected to a calendering operation.

[0036] Unlike that which is described above, the covering step cannot relate to plies that have already been formed but rather to individual filaments. In this case the ply will be made using cords that have already been coated with the solid part of the aqueous suspension with which they were coated.

[0037] The belts thus constructed were vulcanized and subsequently subjected under the same conditions to load stress utilizing the machine referred to as SHOESHINE and described in the article by van Bogaert, P. and van Bogaert, S., Mechanics of Bend-Over-Sheave (shoeshine) Fatigue Testing of Cord-Rubber Laminates Tire Science and Technology, Vol. 39, No. 3, July-September 2011, pp. 168-192.

[0038] Once belts A-C had been subjected to the aforementioned load stress, a separation was performed of the two parts of the ply-rubber composite by means of the application of a load and an estimate was made of both the percentage of ply coated with the rubber and the percentage of the number of filaments broken during the test.

[0039] In Table III the recorded percentage values are reported.

TABLE-US-00003 TABLE III A B C % of broken filaments 17 6 7 % of ply covering 80 100 100

[0040] As can be seen from the data in Table III, the solution which is object of the present invention, makes it possible to allow the utilization of a metallic ply within belts, without, however, suffering the disadvantages listed above. In other words, with the solution which is object of the present invention, it is possible to obtain the advantages associated with the use of a metallic ply (reduction in the amount of tread ply skim) without incurring premature rupture of the filaments of the ply and/or loss of adhesion between the metallic ply and the tread ply skim.

[0041] Finally, it should be noted that the present invention allows to avoid the use of cobalt salts within the tread ply skim compound. In fact, the cobalt salts can be loaded into the aqueous-based suspension (belt related to example B), greatly reducing the amount utilized, with the obvious advantages in terms of safety that this entails.