RU2729867C1 - Pneumatic radial light-truck tire - Google Patents

Abstract

FIELD: automotive industry.

SUBSTANCE: invention relates to automotive pneumatic light-truck tires of radial design, rubber-coated breaker bracelet of which consists of two layers of rubberized metal cord, crossed crosswise to each other, and one or two layers of textile layer. Pneumatic radial light-truck tire is characterized by application in a breaker brace of two layers of rubber-coated metal cord of structure 4L32NT, cut at angle of 20–25° and superimposed cross to cross, with thickness of rubberized layer of metal cord (1.3÷1.4)±0.03 mm, metal cord diameter 0.86±0.04 mm, linear metal cord density 2.40–2.66 g/m and metal cord breaking force as a whole of not less than 890 N, metal cord pitch in finished tire 1.3–1.8, wherein metal cord is made of metal threads of high strength of identical diameter of 0.32 mm with brass coating with weight of 4.5±2.0 g/kg and weight fraction of copper in brass coating 63±2.5 %, S-type coils with pitch of 15–17 mm, with bond strength of metal cord breaker with production rubber mixture of not less than 340 N/12.5 mm, ratio of diameter of metal thread to diameter of metal cord is 0.372.

EFFECT: increased overall performance of the pneumatic tire, reduced coefficient of rolling resistance, as well as increased circumferential rigidity of the tire, which affect improvement of resistance of the tires to lateral pull.

1 cl, 1 dwg, 1 tbl

Description

SUBSTANCE: invention relates to pneumatic light-duty tires of radial structure, rubberized belt bracelet of which consists of two layers of rubberized metal cord, superimposed cross-on-cross on top of each other, and one or two layers of textile layer.

Known technical solutions for pneumatic passenger tires with metal cord and textile layers in the breaker: RF patent No. 2495760 for the invention "Pneumatic tire tire" publ. 20.10.2013, RF patent No. 2495761 for the invention "Pneumatic tire tire" publ. 20.10.2013, patent of the Russian Federation No. 121200 for a useful model "Tire of pneumatic tires" publ. 20.10.2012.

The closest analogue to the developed solution is a technical solution according to patent No. 2495761 "Tire of pneumatic tires" including a protector, a breaker consisting of metal cord and textile layers, a frame, sidewalls, bead rings. The diameter of the steel cord is 0.55-0.95 mm. The metal cord itself is made of metal threads of the same diameter, while the number of threads is not less than two and not more than four, and the ratio of the diameter of the metal thread to the diameter of the metal cord is 0.344-0.543, the pitch of the steel cord in the rubberized layer of the breaker is 1.052-2.083, and the linear density of the steel cord is in the range of 1.05-2.67 g / m. In this case, the thickness of each rubberized layer of the steel cord in the breaker is 0.72-1.52 mm, and the breaking strength of the steel cord is 400-900 ± 5 N.

The disadvantages of these solutions are insufficient tire performance, high rolling resistance coefficient, as well as low tire lateral drag.

The objective of this invention is to develop a pneumatic radial light truck tire with increased overall performance, providing a decrease in hysteresis losses in belt materials, which leads to a decrease in the rolling resistance coefficient, as well as an increase in the elasticity of the rubberized belt strap and the circumferential stiffness of the tire, as a result of increasing the tire lateral resistance characteristic. withdrawal, the invention expands the arsenal of technical means.

To achieve this task, the design of a pneumatic light truck tire has been developed, consisting of a tread (1), a frame made of textile cords (2,3), sidewalls (4), bead rings (5), a rubberized belt bracelet consisting of one or two textile layers (6) and two layers of rubberized metal cord (7) of the 4L32NT structure, cut at an angle of 20-25 ° and superimposed on each other cross-by-cross, with the thickness of the rubberized metal cord layer (1.3 ÷ 1.4) ± 0.03 mm, steel cord diameter 0.86 ± 0.04 mm, linear density of steel cord 2.40-2.66 g / m and breaking force of steel cord as a whole not less than 890 N, pitch of steel cord in finished tire 1.3-1.8, moreover, the metal cord is made of high-strength metal threads of the same diameter 0.32 mm with a brass coating weighing 4.5 ± 2.0 g / kg and a mass fraction of copper in the brass coating 63 ± 2.5%, twisted together according to the "S" type with a pitch of 15-17 mm, with the strength of the bond of the steel cord breaker with the production rubber compound n e less than 340 N / 12.5 mm, and the ratio of the diameter of the metal thread to the diameter of the steel cord is 0.372. The tire cross-sectional structure is shown in FIG. 1.

The main purpose of the rubberized belt strap is to protect the carcass from sudden shock loads, as well as to increase the mechanical strength of the pneumatic tire. Being rigid, practically inextensible contributes to a higher level of tire grip due to an increase in the contact surface area, while the contact pressure is reduced and distributed more evenly, it should have significant strength and high peripheral rigidity. According to the developed solution, the belt bracelet in the finished tire consists of two layers of rubberized steel cord cut at an angle of 20-25 ° superimposed on each other, one or two layers of textile.

The design and number of layers of steel cord in a tire are determined by calculation based on a given internal air pressure, load, type and purpose of the tire. Metallic threads bear the main load during tire operation, providing mechanical strength, sufficient circumferential rigidity, wear resistance and retention of a given shape. In the developed solution, a steel cord with a 4L32NT structure is used. The applicability of the cord with the 4L32NT design is limited to the use of radial design for all light truck tires.

The belt strap in the tire works mainly in tension and repeated bending. These stresses are generally caused by air pressure and centrifugal forces that create tensile stresses in the cord. The thickness of the cord, its density, heat resistance and other physical and mechanical properties have a significant effect on the operation of the belt bracelet.

In the layers of the belt bracelet of the finished tire, according to the developed solution, the pitch of the steel cord threads is 1.3-1.8, which makes it possible to fill the gaps between the threads with a rubber compound. Each strand of the steel cord belt is isolated from its neighbors and at the same time tied to them with a unique rubber compound. Rubber protects the cords from moisture, chafing and contributes to an even distribution of loads between them. The presence of rubber between the layers of a belt strap increases the mass of the tire and therefore affects its performance. Computational (finite element method) and empirically selected the design, thickness of the rubberized cord and rubber interlayers to maintain the optimal characteristics of the tires according to the present invention. The thickness of the rubberized cord layer ranges from 1.3 ± 0.03 mm to 1.4 ± 0.03 mm.

Breaker rubbers should have high elasticity, low heat generation, provide a strong bond with the tread and carcass, steel cord of the belt bracelet. Due to the significant temperature that develops in the belt zone during tire operation, belt rubbers must have a high temperature - and heat resistance. Natural rubber, which is used in the recipe, meets the requirements of high elasticity, high bond strength with other tire parts, temperature and heat resistance to the best degree.

The rubber in the layers of the belt bracelet operates in a mode close to the specified deformation mode. The amount of rubber deformation is determined by the maximum load and the relative rubber content in the layer (depends on the frequency of the cords). The peculiarity of rubber loading in the belt layers of radial tires is that when the tire is turned by 4-6 °, the direction of the main deformations changes. In this case, the rubber in the layers of the belt strap undergoes biaxial stretching, and the shear of the rubber in the layer is about 30%.

Due to the modification of the elastomeric matrix, the elastic-strength properties of rubbers in the boundary regions are improved, the density of the spatial network increases, which leads to an increase in the strength of the adhesive joint.

One of the most effective methods of increasing the adhesive properties of rubber with steel is its brass plating (an alloy of copper and zinc). Brass has good adhesion to both materials, as well as the required mechanical properties and corrosion resistance. In the process of sulfur vulcanization, metals are sulfided, and a multilayer intermediate film is formed between rubber and brass, consisting of the reaction products: Cu _x S, ZnS, ZnO. The formation of Cu _x S occurs in the form of dendrites, which grow into the elastomer phase to a depth of 50 nm, which leads to the formation of a developed contact surface with many points of physical interaction. The growth rate of dendrites, their size and shape are determined by the diffusion of copper from the composition of the brass through the ZnO and ZnS layers; therefore, the mass of the brass coating and the mass fraction of copper in the brass coating have a regulating effect on the bond strength. It has been experimentally revealed that the use of a brass coating weighing 4.5 ± 2.0 g / kg and a mass fraction of copper in a brass coating of 63 ± 2.5% makes it possible to achieve a bond strength of a steel cord breaker with a production rubber mixture of at least 340 N / 12.5 mm, as well as at least 270 N / 12.5 mm of bond strength after salt aging (Method ASTM D 2229). The developed solution uses a brass-coated steel cord with the above characteristics.

The need to twist the threads is dictated by the requirements to achieve a given breaking strength, permissible elongations both at break and under working loads, plus the need to ensure a stable bond with the production rubber compound (adhesion). In addition, the twisting of metal threads makes it possible to achieve the required durability under dynamic loads. The use of a high-strength steel cord 4L32NT, the threads of which are twisted together according to the "S" type with a pitch of 15-17 mm, with a rubberized cord thickness of 1.3 mm ÷ 1.4 mm, provides the necessary and sufficient margin of safety for the tire belt bracelet, circumferential rigidity , performance and durability of the tire.

In a belt strap, a textile cord placed over the steel cords performs a protective function and increases the tire circumferential rigidity.

The design parameters of the tire layers, the characteristics of the steel cord used, in combination with the use of unique belt rubbers, allow achieving high strength characteristics, adhesion properties of the belt layers in light-duty radial tires, both in connection with the steel cord with a rubber compound for rubberizing the belt layers, and with adjacent rubber compounds carcass and tread base.

To achieve the technical result, an experimental rubber compound has been developed that has high elasticity, temperature and heat resistance, with the following strength indicators (values are given in Table 1).

According to the present invention, tires 185 / 75R16C and 195 / 75R16C were manufactured with a rubberized belt bracelet, consisting of two layers of rubberized metal cord of the 4L32NT structure, cut at an angle of 23 ± 0.5 ° and superimposed on each other crosswise, with the thickness of the rubberized layer steel cord 1.3 ± 0.03 mm, steel cord diameter 0.86 ± 0.04 mm, linear density of steel cord 2.53 ± 0.13 g / m and breaking force of steel cord as a whole not less than 890 N, steel cord pitch in the finished tire 1.6, and the metal cord is made of high-strength metal threads of the same diameter 0.32 mm with a brass coating weighing 4.5 ± 2.0 g / kg and a mass fraction of copper in the brass coating 63 ± 2.5%, twisted together along type "S" with a pitch of 15-17 mm, with the bond strength of the metal cord breaker with the production rubber mixture of at least 340 N / 12.5 mm, and the ratio of the diameter of the metal thread to the diameter of the steel cord is 0.372, using an experimental rubber compound intended for rubberizing breque nny layers. One textile layer is located on top of the steel cord layers.

Based on the test results, the developed tires comply with the requirements of UN Regulations No. 30, No. 117 and, in comparison with the prototype, provide an increase in the overall performance of a pneumatic tire (up to + 9%), a decrease in hysteresis losses in the belt layers (which leads to a decrease in the rolling resistance coefficient up to 12%) , as well as an increase in the circumferential stiffness of the tire, affecting the improvement of tire lateral slip resistance, achieving the claimed technical result with the entire claimed combination of essential features of this invention. The calculated claimed technical result is also achieved with the values of the pitch of the steel cord in the range of 1.3-1.8, the thickness of the rubberized layer of the metal cord in the range (1.3-1.4) ± 0.03, cutting angles from 20 ° to 25 ° in total with the rest of the essential features of the invention.

The developed solution can be implemented on standard equipment using standard technology.

Claims (1)

Pneumatic light truck tire, consisting of a tread, a carcass made of textile cords, sidewalls, bead rings, rubberized belt bracelet, consisting of layers of rubberized metal cord and textile cord, characterized by the use of two layers of rubberized metal cord structure 4L32NT, cut at an angle in the belt bracelet 20-25 ° and superimposed on each other cross on a cross, with the thickness of the rubberized layer of the steel cord (1.3 ÷ 1.4) ± 0.03 mm, the diameter of the steel cord 0.86 ± 0.04 mm, the linear density of the steel cord 2.40 -2.66 g / m and the breaking force of the steel cord as a whole is not less than 890 N, the pitch of the steel cord in the finished tire is 1.3-1.8, and the metal cord is made of high-strength metal threads of the same diameter 0.32 mm with a brass coating weighing 4 , 5 ± 2.0 g / kg and the mass fraction of copper in the brass coating 63 ± 2.5%, twisted together according to the "S" type with a pitch of 15-17 mm, with the bond strength of the steel-cord breaker with the production rubber mixture not less than 340 N / 12.5 mm, and the ratio of the diameter of the metal thread to the diameter of the steel cord is 0.372.

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