KR20180097123A - The double covering carbon multi yarns and woven fabric products made of them by rapier loom - Google Patents

Abstract

The present invention relates to double covering carbon composite yarn, which is covered by left and right twist with a resin-processed flat-type carbon fiber as core yarn and with synthetic fiber yarn as first cover yarn and second cover yarn, and to carbon composite yarn products woven by a rapier loom using the same, and more specifically, discloses the double covering carbon composite yarn, which has the flat-type carbon fiber as the core yarn and two strands of the synthetic fiber yarn as the covering yarn, so that one strand of the synthetic fiber is left twisted to be firstly covered, after the first covering is completed, the other strand is right twisted to secondarily covered or one strand is right twisted first to be firstly covered by crossing and changing the order of the twisting direction, and after the first covering, the other strand is left twisted to be formed in a circular type, and also discloses the carbon composite yarn products woven by the rapier loom using the same.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a double-covering carbon composite yarn and a carbon composite yarn woven by a rapier loom,

[0001] The present invention relates to a double-covering carbon composite yarn and a carbon composite yarn woven with a rapier loom using the same, more particularly, Cover covering yarn and a second cover yarn, and a carbon composite yarn woven by a rapier loom using the same.

In general, when carbon fiber is commercialized, carbon fibers of 3K, 6K, 12K or 24K standard are first processed with resin in the flat type condition and then woven with warp and weft to produce carbon fiber woven fabric Woven Fabric made of Carbon Fiber is manufactured and then it is cured by resin using Hand Lay-up Mothod or Molding Compound Method.

However, such a process requires a high degree of skill, low efficiency of the operation speed, and difficulty in achieving uniform quality stability.

In addition, since the conventional carbon fiber is flat in shape, it is true that the carbon fiber is subject to various restrictions when weaving or finishing. Thus, there were disadvantages of limitation of product production speed and complication, and relatively high production cost.

Korean Patent Registration No. 1439150. Korean Patent Publication No. 2006-0133048. Korean Patent Publication No. 2005-0106608.

Disclosure of the Invention The present invention has been devised to solve the problems of the prior art described above, and it is an object of the present invention to prepare two strands of synthetic fiber yarn of the same size with one core fiber of a flat type carbon fiber, One of two strands of fiber yarn is covered with Z twisting first and the other yarn is covered with second twisting by S twisting or alternatively, By eliminating the difficulties and inconveniences of conventional carbon fiber fabrication or work after the weaving, it is possible to increase the efficiency and mass production of the process in Rapier loom. And to provide a double-covering carbon composite yarn that can reduce costs and contribute to the market in a remarkable manner.

Further, in order to solve the conventional problems, the present invention has been made to solve the conventional problems in that a flat type carbon fiber is improved to a round shape and the surface of the carbon fiber is coated with a rayon- Another object of the present invention is to provide a carbon composite yarn which remarkably improves convenience and efficiency in the post-processing process, and simultaneously imparts the strength of the product and the effect of the fire-retardant function.

Also, in the present invention, the core yarn of the carbon fiber is coated with heat buffering ray yarn through ZS twisting to give the function of strength and temperature control of the product Which is a carbon-carbon composite fiber.

In addition, the carbon composite yarn provided in the present invention solves the difficulties and inconveniences of working carbon fibers which are generated when the weaving is performed or the resin is formed immediately after the weaving, and thus the efficiency of the process in the rapier loom Another challenge is to provide carbon composite fabrics that can contribute greatly to the market by enabling production and mass production to lower production costs.

The double-covering carbon composite yarn according to the present invention, which solves the above-mentioned problems, has a structure in which a flat type carbon fiber is judged and two strands of synthetic fiber yarn are used as covering yarns. One strand of the synthetic fiber yarn is left- After the first covering is completed, the other one strand is secondarily covered, or alternatively, the first strand is firstly covered with the right yarn after the leading end of the yarn direction is crossed. After the first covering is completed, And is formed as a circular type.

Here, the carbon fiber may be any one of 3K, 6K, 12K, and 24K.

Here, the synthetic fiber yarn is characterized by being any one of silica rayon (Silica Rayon), heat-rayon (HB Rayon), and aramid.

Here, the number of twists of the first and second covered left and right yarns is 100 to 300 TH, respectively.

Here, the carbon composite yarn has a fineness of 3,500 to 17,000 denier

In addition, the present invention provides a carbon composite yarn woven by a rapier loom using the above double-covering carbon composite yarn.

The double-covering carbon composite yarn according to the present invention is improved in the flat type of the carbon fiber to a round type, and the surface of the carbon fiber is made of rayon-based fibers such as Silica Rayon, Heat Buffering (HB) Rayon) or aramid fiber, it is advantageous to improve convenience and efficiency in weaving and finishing process.

In addition to the original high strength and elasticity of carbon fiber, silica flame retardant Silica Rayon is additionally mixed. In addition, thermal insulation rayon (HB Rayon) and aramid are used in combination, The present invention can be applied to the production of a wide range of applications such as aircraft, automobiles, ships, tires, wind turbine blades, and building materials.

1 is a front view illustrating the structure of a double-covering carbon composite yarn of the present invention.
2 to 4 are graphs showing the results of measurement of physical properties of a double-covering carbon composite yarn according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail.

The present invention relates to a method of making a core yarn of a flat type carbon fiber processed into a resin and a synthetic yarn of a cover yarn and a covering yarn, The present invention provides a double-covering carbon composite yarn covered by left and right yarns and a carbon composite yarn woven by a rapier loom using the same. In the present invention, In order to solve the conventional problems caused by weaving using a fiber, the flat type carbon fiber is improved to a round shape, and the surface of the carbon fiber is coated with a rayon material by MX sputtering (Mulching ) To improve convenience and efficiency in weaving and finishing process significantly.

In addition, the core yarn surface of the carbon fiber is covered with Silica Rayon Yarn (MX Twisting) through Mulching to give a carbon composite I want to provide you with a company.

In addition, a carbon composite compound which gives a function of strength and temperature control by applying Mulching to the core yarn of the carbon fiber through a heat buffering Rayon yarn (MX Twisting) I want to provide you with a company.

Another object of the present invention is to provide a carbon composite yarn improved in physical properties by nylon or aramid fibers being subjected to Mulching through MX Twisting.

As shown in FIG. 1, a double covering carbon multifilament yarn according to the present invention has a flat type carbon fiber 110 as a core yarn and a synthetic fiber yarn 120, 130), one strand of the first synthetic fiber yarn 120 is firstly covered by Z twisting, and one strand of the other second synthetic fiber yarn 130 after the completion of the first covering is formed into a twisted yarn ), And is secondarily covered to form a round type.

According to the present invention, although not shown in the drawings, the first and second synthetic fiber yarns used as the covering yarns may be selected from the enemies, And Z twisting of the second synthetic fiber yarn 300, as shown in Fig.

According to the present invention, the carbon fibers may be selected from the group consisting of 3K (1,800 Denier), 6K (3,600 Denier), 12K (7,200 Denier) and 24K (11,400 Denier), and the synthetic fibers include silica rayon, Heat Buffering (HB) Rayon, or aramid.

Polyesters or nylons may also be used in addition to the synthetic fibers listed above.

Preferably, the silica rayon or warm rayon has a fineness of 4 'S / 1 to 6''/ 1 (885 to 1328 Denier) The aramid fiber preferably has a fineness of 5 'S / 2 to 20' S / 2 (250D to 1000D).

On the other hand, when the polyester or nylon is used, it is preferable to use a strong filament yarn of 600 D to 1,000 D for the polyester, and the nylon has a fineness of 5 'S to 20' S (265 D to 1060 D).

When the silica rayon or the thermal rayon fineness is 885 Denier or less, there is a problem that the production amount is reduced when the weaving is performed with the rapier loom. When the silica rayon or the thermal rayon fineness is 1328 Denier or more, the unit density of the covering yarn is increased, There is a problem with the integration.

When the fineness of the aramid fiber is less than 250 Denerier, there is a problem of lowering the yield when weaving with a rapier loom. When the filament fineness of the aramid fiber is more than 1000 Danerier, the unit density of the covering yarn becomes high,

On the other hand, when the polyester fineness is 600 Denier or less, there is a problem of lowering the production amount when weaving with a rapier loom. When the polyester fineness is 1000 Denier or more, the unit density of the covering yarn is increased, May occur.

According to the present invention, it is preferable that the twist number of the left-handed primary covered with the first synthetic fiber yarn is 100-300 TM, and the twist number of the secondarily covered yarn with the second synthetic fiber yarn is 100 To 300 < RTI ID = 0.0 > pm. ≪ / RTI > The reason for this is that the synthetic fiber MX yarn (covering yarn) used for the carbon composite yarn used for the industrial material has a considerably higher fineness than that of the clothing yarn, Because of the high occupancy rate, excessive TM may cause a problem of not being able to organically combine with carbon fiber, which is a core.

More specifically, when the left or right yarn is over 300TM and the double covering is performed, the carbon composite yarn itself rotates severely when it is weaved by the rapier loom, making it difficult to weave the yarn, Lt; / RTI > When the raw material of the woven carbon composite yarn is molded into the resin, excessive dense density makes it difficult to smoothly impregnate the resin, which makes molding of the product difficult. On the contrary, if the left or right yarn is double-covered with 100TM or less, the above-mentioned problems do not occur. However, since the carbon composite yarn can not properly form a round type for a desired purpose, A reduction in the amount of production at the time occurs.

The double-covering carbon composite yarn according to the present invention having the above-described structure is characterized by having a fineness of 3,500 to 17,000 denier.

The carbon composite yarn according to the present invention, which is provided in the above, covers the fibers of other materials, so that the flat type carbon fiber is improved to a round shape and the surface of the carbon fiber is made into a rayon- By MX wrapping (Mulching), convenience and efficiency in weaving and post-processing are drastically improved, which makes it possible to increase process efficiency and mass-production in rapier looms, thereby reducing production costs. Accordingly, in the present invention, it is possible to provide the double-covering carbon composite yarn according to the present invention, which has been provided above, as a carbon composite yarn woven with a rapier loom.

Hereinafter, the present invention will be described in more detail with reference to preferred embodiments. It should be understood, however, that there is no intent to limit the invention to the precise forms disclosed herein, which are intended to be illustrative of the invention, .

[Example 1]

Two pieces of Silica Rayon 4S / 1 (1,328 Denier) were prepared as a core yarn with a carbon fiber 12K (7,200 Denier) as a core yarn, and one strand was twisted (Z Twisting) was performed so as to satisfy 100-300TM. Then, one strand of silica rayon was subjected to S twisting so as to satisfy the twist number of 100-300TM to produce 9,420 Denier Carbon Silica Multiyarn .

[Example 2]

The carbon fiber 12K was examined and two strands of heat buffering Rayon 4S / 1 (1,328 Denier) were prepared. One strand of the two strands was subjected to Z twisting so as to satisfy the twist number of 100-300TM. After that, 7440 Denier 's Carbon Heat Buffering Multiyarn was manufactured by twisting one strand of insulated rayon to satisfy the twist number of 100 ~ 300TM.

[Example 3]

The carbon fiber 12K was examined and 2 aramid fibers of 1,000 Deniers were prepared as the covering yarn. One strand of the two strands was Z twisted so as to satisfy the twist number of 100-300 TM, and the other aramid fiber Carbon Heat Buffering Multiyarn of 9200 Denier was manufactured by S twisting to satisfy the twist number of 100 ~ 300 TM.

The properties of the carbon composite yarn produced in the above Examples were tested, and the test method thereof is as follows.

≪ Property test method >

The properties of the carbon composite yarn prepared in Examples 1 to 3 were measured according to ASTM D2256 / D2256M-10.

1) Specimen condition

- gauge length: 250 mm

- Specimen type: The carbon composite yarn prepared in Examples 1 to 3 was subjected to a tensile test by preparing 10 specimens per each sample, and the results were averaged.

2) Test method

- Test cloth: Universal testing machine (Quasar 5, Galdabini), Pneumatic grip (THS13, Grip-Enginering Thumler GmbH)

- Tensile speed: 20mm / min (Preliminary test to set the fracture to take about 20 seconds on average)

- Detailed test method: Measure gauge length (250mm) of carbon composite yarn accurately and fix it with pneumatic grip.

 Start the test after pre-load (10N) setting and measure the strain and load value according to tensile.

Test results measured by the above physical property test method are shown in Figs. 2 to 3 and Tables 1 to 3.

FIG. 2 is a graph showing the results of measurement of physical properties of the carbon fiber composite yarn of Example 1, FIG. 3 is a graph showing the results of measurement of physical properties of the carbon thermal insulation composite yarn of Example 2, and FIG. Which is a graph showing the results of physical property measurement.

Table 1 shows the results of measuring the breaking force (N), Table 2 shows the results of measuring the breaking tenacity (cN / tex), and Table 3 shows the results of the initial modulus (cN / tex) .

Breaking tenacity (cN / tex) = F _b / T (F _b : breaking force, T: linear density)

Initial modulus (cN / tex) = (△ F × 100) / (△ ε p × T)

(F: force, 竜_p : elongation,%)

100: carbon composite yarn
110: carbon fiber
120, 130: Synthetic fiber yarn

Claims (6)

A flat type carbon fiber was judged and two synthetic fiber yarns were covered with a cover yarn. One of the four synthetic fibers was subjected to a first covering operation while the first covering was completed, and the other one Wherein the first cover is firstly covered with a right cover after the first cover is completed and the other cover is left after the first cover is completed, .
The method according to claim 1,
Wherein the carbon fiber is any one of 3K, 6K, 12K, and 24K.
The method according to claim 1,
Characterized in that the synthetic fiber yarn is any one of silica rayon (Silica Rayon), heat-rayon (HB Rayon), and aramid.
The method according to claim 1,
Characterized in that the number of twists of the first and second covered left and right yarns is 100 to 300TM, respectively.
The method according to claim 1,
Wherein the carbon composite yarn has a fineness of 3,500 to 17,000 denier.
A carbon composite yarn woven with a double-covering carbon composite yarn according to any one of claims 1 to 5, which is woven with a rapier woven fabric.

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