RU2393278C1 - Cord fibre - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: produced technical aramid fibre of linear density 58.8 tex has structure 58.8×2×3×3 consisting of three strands with value of twisting: the first and the second twists - 170-210 twisting/metre, the third twist - 80-120 twisting/metre, and direction of twists SZS.

EFFECT: fibre possesses high adhesion connection with rubber and increased breaking load (no more than 1715 H).

4 tbl, 2 ex

Description

The invention relates to the production of synthetic cord, in particular to the production of aramid cord, and can be used in the rubber and tire industry.

The structure of the hybrid cord cord is known (Smirnov A.G., Danilenko V.O., Shevchenko Yu.G. // Production and use of elastomers. 1995. - No. 11-12, p. 18), consisting of strands of aramid and capron ( lavsan or anida).

A disadvantage of the known cord yarn is the elongation at break of kapron (Lavson or anide) strands, which limits the use of the specified cord yarn in tissues, in particular, for the manufacture of high-strength rubber cord pipe connections.

The closest in terms of the totality of features and the technical result achieved - the prototype - is the structure of the cord thread (RF patent No. 2330132, BI No. 21, publ. July 27, 2008), consisting only of strands of technical aramid yarn with a structure of 58.8 tex × 2 × 3 or from strands of technical aramid and technical kapron yarn of structure 58.8 tex × 2 × 3 + NK93.5.

The disadvantage of the structure of the cord yarn according to the prototype is the insufficiently high bond strength of the cord of the structure 58.8 tex × 2 × 3 with rubber, low breaking load (735 N) of twisted cord threads of the structure 58.8 tex × 2 × 3 and 58.8 tex × 2 × 3 + NK93.5. The use of these yarns for the manufacture of a power frame for high-strength rubber cord pipes requires an increase in the number of layers of cord fabric from twisted cord yarns, which leads to heavier products, increased material consumption, and increased labor intensity of the process.

The technical result of the invention is the structure of the cord thread having a high adhesive bond with rubber and a high breaking load - breaking load of at least 1715 N.

The specified technical result is achieved due to the structure of the cord thread having a structure of 58.8 × 2 × 3 × 3, which consists of three strands with the number of torsions: the first and second twist - 170-210 torsions / meter, 3 twist - 80-120 torsions / meter, twist direction SZS.

The set of essential features according to the invention allows to produce a cord thread having qualitatively improved physical and mechanical properties, namely, a high adhesion bond of the cord thread to rubber, high breaking load and high cyclic endurance.

The following examples illustrate the changes in the physicomechanical properties of the original (non-impregnated) cord threads and the processed (impregnated) cord threads, depending on the structure of the cord thread.

Example 1 - Aramid cord thread, structure 58.8 tex × 2 × 3 × 3, obtained by joining and twisting aramid technical yarn of linear density 58.8 tex (TU 2272-001-51605609-00) on twisting machines K-176, consists of three strands with the number of torsions: the first and second twist - 170 torsions / meter, the third twist - 80 torsions / meter, the direction of the twists SZS, is impregnated twice with a latex-resorcinol formaldehyde composition with a concentration of 12.5%, containing DBA-1 latex, SKD-1c, 5% resin solution SF-282 and 22% dispersion of carbon black and twice heat-treated at a rate Aturi 120-125 ° C to a residual moisture content of 1%. Physico-mechanical properties of the impregnated and non-impregnated cord filament are shown in tables 1, 2.

Table 1 Physico-mechanical properties of the impregnated cord thread Name of indicator Value Breaking load, N 2140 The bond strength with industrial rubber, N 136 Elongation at break,% 4.0 The number of cycles during vertical movement with a load mass of 38 kg and a frequency of movement of 0, 32 Hz 19560

table 2 Physico-mechanical properties of impregnated cord Name of indicator Value Breaking load, N 1970 The bond strength with industrial rubber, N 145 Elongation at break,% 4.0 The number of cycles during vertical movement with a load mass of 38 kg and a frequency of movement of 0.32 Hz 1985518

Example 2 differs from example 1 in that the cord thread consists of three strands with the number of torsions: the first and second twist - 210 torsions / meter, the third twist - 120 torsions / meter. Physico-mechanical properties of the impregnated and non-impregnated cord filament are shown in tables 3, 4.

Table 3 Physico-mechanical properties of the impregnated cord thread Name of indicator Value Breaking load, N 1968 The bond strength with industrial rubber, N 151 Elongation at break,% 5,0 The number of cycles during vertical movement with a load mass of 38 kg and a frequency of movement of 0, 32 Hz 58388

Table 4 Physico-mechanical properties of impregnated cord Name of indicator Value The bond strength with industrial rubber, N 161 Elongation at break,% 5,0 The number of cycles during vertical movement with a load mass of 38 kg and a frequency of movement of 0, 32 Hz 2161041

As can be seen from the above examples, with an increase in the number of torsions / meter (example 2), the bond strength of the cord with rubber and cyclic endurance increase, but the breaking load decreases and the elongation at break increases.

With a decrease in the number of torsions / meter (example 1), the breaking load of the cord increases, but the bond strength, elongation at break and cyclic endurance with the same structure of the cord decreases.

Impregnation of the claimed cord yarn leads to a multiple increase in the cyclic endurance of the yarn.

Thus, the proposed structure of the cord yarn provides a high adhesive bond of the cord yarn with rubber, high breaking load and high cyclic endurance.

The company has positive experience in applying cord of the inventive structure to cord fabric used for the production of high-strength rubber cord pipes.

Claims (1)

Cord aramid technical thread, consisting of three strands with the following number of torsions: the first and second twists of 170-210 torsions / m, the third twist of 80-120 torsions / m and the direction of twists SZS and having a structure of 58.8 tex × 2 × 3 × 3 .