RU2391452C1 - Cord thread - Google Patents

Abstract

FIELD: textile, paper.

SUBSTANCE: invention relates to technology for production of aramid cord thread, and may be used in rubber and tyre industry. Cord thread is produced by twisting of three strands into single complex thread, and strands are represented by twisted thread from heterocyclic paraamid 58.8 tex x 2, having identical 1 11 twists from 130 to 250 tw/metre and direction of twists SSSZ. Additionally, complex thread may contain one strand of polyamide thread of linear density 93.5 tex (HK), twisted with direction of twists (SSS+HK)Z. Cord thread is impregnated with latex-resorcin-formaldehyde composition in amount of 2-15%.

EFFECT: production of high-strength synthetic threads.

3 cl, 3 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 known structure of the cord yarns (A.G. Smirnov and others. Reinforcing materials for off-road tires // Production and use of elastomers / TsNIITEneftekhim. - 1995, No. 11-12, - S.10-19), consisting of one aramid strand 167 tex × 1 and the second strand: lavsan 110 tex × 2, nylon 187 tex × 2, anida 187 tex × 1.

A disadvantage of the known structure of the cord threads is the high elongation at break of the cord, which does not allow it to be used for the manufacture of high-strength synthetic cord for rubber-cord shells operating under dynamic loads.

Known aramid cord yarns SVM-40B and SVM-80B (Technology for processing tire cord / RVUzina and others - M .: Chemistry, 1986, - S.91-92, 115-117), structure 167 tex × 1 × 2 and 167 tex × 1 × 3, which are highly durable and designed for the breaker of passenger and truck tires.

A disadvantage of the known cord yarns is that the yarn is impregnated with divinyl-2-methyl-5-vinylpyridine or divinyl-2-methyl-5-vinylpyridine peroxide latexes, which are not commercially available in our country, as well as its low fatigue endurance under dynamic loads.

The closest in terms of the set of technical features and the technical result achieved - the prototype - are Rusaram para-aramid threads (K.E. Perepelkin et al. Water vapor sorption by high-strength para-aramid threads // Chemical fibers. - 2007, - No. 5, - P.50; I .V. Slugin et al. Rusaram paraaramide yarns for composite materials for structural purposes // Chemical fibers. - 2006, No. 1, - P.19-20), consisting of a twisted yarn of a hetrocyclic paraaramide - a copolymer of amidobenzimidazole with paraphenylene terephthalamide (from 50 to 110 torsions per 1 m mp) linear density from 6.3 to 167 tex, characterized by high relative strength and low elongation at break.

The disadvantage of Rusar yarns is its low working capacity under dynamic loads, where high bond strength with rubber and high fatigue endurance are important, therefore the textile structure of the cord yarn and especially the correct selection of torsion of the yarn are important.

The technical result of the invention is a cord thread, which has a low elongation at break, high fatigue endurance under dynamic loads and high bond strength with rubber.

The specified technical result is achieved by the fact that the cord thread is made by twisting three strands of aramid twisted yarn made of heterocyclic para-aramid and optionally one strand of polyamide yarn and impregnated with latex-resorcinol-formaldehyde composition in an amount of 2-15% used to impregnate polyamide cords. The set of essential features according to the invention allows to obtain a qualitative increase in the physico-mechanical properties of the cord, namely the bond strength with rubber, high fatigue endurance under dynamic loads and low elongation at break.

The novelty of the invention lies in the new yarn structure, which is made of heterocyclic para-aramid, consists of three strands of yarn 58.8 tex × 2 and optionally one strand of polyamide yarn of linear density 93.5 tex (NK), twisted into one multifilament yarn having the same 1 and II twist from 130 to 250 torsions per 1 meter, the twist direction (SSS + HK) Z and is impregnated with domestic latex-resorcinol-formaldehyde composition in an amount of 2-15%.

The cord can be made from a copolymer of amidobenzimidazole with paraphenylene terephthalamide.

The invention is illustrated by examples.

Example 1. The cord thread is made of three strands of aramid yarns Rusar®, obtained by twisting two strands of linear density 58.8 tex (TU 2272-001-51605609-00), has the same 1 and II twists - 130 twists per 1 meter, twist direction SSSZ and impregnated with domestic latex-resorcinol-formaldehyde composition in an amount of 2%.

Physico-mechanical properties of the cord:

- breaking load, N 769 - bond strength with industrial rubber, N 102 - linear shrinkage (160 ° C × 20 min),% 0 - elongation at break,% 5.2 - fatigue endurance with cyclic Y-axis movements under load on a thread 1/5 of the breaking load, cycles 474480 - breaking load after 30 days of storage, N 765 - bond strength with industrial rubber after 30 days of storage, N 95

Cord yarn according to example 1 has zero linear shrinkage, low elongation at break and can be used for the manufacture of high-strength rubber-cord shells operating under dynamic loads.

Example 2 differs from example 1 in that the cord yarn additionally contains one strand of polyamide yarn (GOST 22693-98) with a linear density of 93.5 tex (NK), the twist direction (SSS + HK) Z and is impregnated with domestic latex-resorcinol formaldehyde composition in an amount of 15% .

Physico-mechanical properties of the cord:

- breaking load, N 757 - bond strength with industrial rubber, N 122 - linear shrinkage (160 ° C × 20 min),% 4.8 - elongation at break,% 7.8 - fatigue endurance during cyclic movements in the direction of the Y axis when the load on the thread 1/5 part from breaking load cycles 1921860 - breaking load after 30 days of storage, N 757 - bond strength with industrial rubber after 30 days of storage, N 122

Cord yarn according to example 2 has a high bond strength of the cord with rubber, high fatigue endurance and can be used for the manufacture of high-strength rubber-cord shells operating under dynamic loads.

Example 3 differs from example 1 in that the cord yarn additionally contains one strand of polyamide yarn (GOST 22693-98) with a linear density of 93.5 tex (PC), twist direction (SSS + HK) Z, impregnated with domestic 15% latex-resorcinol formaldehyde composition and has the same 1 and II twist - 250 torsions per 1 meter.

Physico-mechanical properties of the cord:

- breaking load, N 739 - bond strength with industrial rubber, N 125 - linear shrinkage (160 ° C × 20 min),% 7.5 - elongation at break,% 9.8 - fatigue endurance with cyclic Y-axis movements under load on a thread 1/5 of the breaking load, cycles 2921860 - breaking load after 30 days of storage, N 739 - bond strength with industrial rubber after 30 days of storage, N 125

The cord of the example 3 has maximum fatigue endurance, high bond strength with rubber, low elongation at break and can be used in the breaker and tire carcass under heavy dynamic conditions.

The results of the given examples of a specific embodiment of the invention show that the proposed cord thread, depending on the technical operating conditions, provides the specified physical and mechanical properties by changing the number of torsions of the aramid thread into one complex thread, an additional content of optionally one strand of polyamide thread and a different percentage of latex-resorcinol formaldehyde composition of the cord thread.

The technical result of the invention is a cord thread for the manufacture of aramid cord with improved physical and mechanical properties necessary in the manufacture of any rubber products and tires.

The company has positive experience in the manufacture of high-strength rubber-cord shells from cord fabric made from the proposed cord thread.

Claims (3)

1. Cord yarn, consisting of a heterocyclic para-aramid, characterized in that it is made by twisting into a multifilament yarn of three strands of aramid yarn 58.8 tex × 2, having the same 1 and II twist from 130 to 250 twists per 1 m, the direction of twist SSSZ and impregnated with latex-resorcinol-formaldehyde composition in an amount of 2-15%. 2. Cord yarn according to claim 1, characterized in that it further comprises optionally one strand of polyamide yarn of linear density 93.5 tex (NK), twisted with three strands of aramid yarn into one multifilament yarn having the same 1 and II twist from 130 up to 250 torsions per 1 m, twist direction (SSS + HK) Z. 3. The cord thread according to claim 1, characterized in that it is made from a copolymer of amidobenzimidazole with paraphenylene terephthalamide.