JP6666129B2 - Fabrics and textile products - Google Patents

Description

  The present invention relates to a fabric and a fiber product excellent in flame retardancy, chemical resistance, fabric strength, and lightness.

  In the field of protective clothing for protecting the human body, characteristics such as heat resistance and strength are required. For example, in a flame-retardant fabric used for fire-fighting clothes worn by firefighters, not only flame retardancy and heat resistance but also mechanical properties must be considered. Furthermore, chemical resistance is also required in the environment in which it is used, since chemical exposure is also assumed. Heat-resistant protective garments need to have multiple properties to ensure that the wearer is safe and comfortable.

In order to solve such a problem, for example, a method has been proposed in which a heat-resistant flame-retardant fiber and a high-strength fiber are blended, cross-knitted, or formed into a two-layer structure fabric (Patent Documents 1, 2, and 3). 3).
However, although excellent in heat resistance, flame retardancy, and tear strength, there is a problem that the basis weight is heavy and there is no chemical resistance.

JP 2009-263815 A JP 2008-517181 A WO 2007/018808 pamphlet

  The present invention has been made in view of the above background, and an object of the present invention is to provide a fabric and a fiber product excellent in flame retardancy, chemical resistance, fabric strength, and lightweight.

  The present inventor has conducted intensive studies to achieve the above object, and as a result, constructed a fabric using a yarn composed of a polybenzimidazole fiber and a copolymerizable aromatic polyamide fiber, and obtained flame retardancy and chemical resistance. The present inventors have found that a fabric excellent in fabric strength and lightness can be obtained, and have made intensive studies to complete the present invention.

Thus, viewed contains a yarn comprising according to the present invention and "polybenzimidazole fibers copolymerized with type aromatic polyamide fibers,
The fiber constituting the yarn is only polybenzimidazole fiber and copolymerized aromatic polyamide fiber, and the weight ratio of polybenzimidazole fiber and copolymerized aromatic polyamide fiber is (former / latter) 20 / 80- 80/20,
The yarn is a spun yarn,
In the yarn is in the range of 10-30 in English cotton count,
The yarn is twisted within a twist coefficient of 5 to 11,
Twist coefficient = T / √n
Here, T is the total number of twists per 2.54 cm, and n is English cotton count.
The fabric is a woven fabric having a plain weave structure, a twill weave structure, or a satin weave structure,
The basis weight is in the range of 150 to 300 g / cm ² ,
In the warp or weft direction of the fabric, the value of the JIS L1096 tear strength single tongue A-1 method is 200 N or more,
In the JIS L1091A-1 method 60 seconds flame contact, the after-flame time is 0.5 seconds or less, the dust time is 0.5 seconds or less, and the carbonized area is 3 cm ² or less,
In the JIS L1091A-1 method 12-second flame contact, the after-flame time is 2 seconds or less, the dust time is 2 seconds or less, and the carbonization length is 10 cm or less,
According to JIS L1091E method, LOI value is 35 or more,
20% by weight sulfuric acid aqueous solution, the retention of tear strength before and after immersion for 48 hours at room temperature is 80% or more,
A fabric characterized by having a 10% aqueous solution of sodium hydroxide and a tear strength retention ratio of 60% or more before and after immersion at room temperature for 48 hours . Is provided.
In this case, in the copolymerizable aromatic polyamide fiber, it is preferable that 80 mol% or more of the polymer repeating unit is composed of an aromatic copolyamide represented by the following formula.

Also, the said yarns in the fabric contains different second yarn, such second yarn it is preferred that the woven in a lattice pattern on the warp and weft.

  Further, according to the present invention, any of the above-mentioned cloths is used and selected from the group consisting of firefighting suits, fire protection suits, work suits, racing suits for motor sports, work clothes, gloves, hats, and vests. A textile product is provided.

  ADVANTAGE OF THE INVENTION According to this invention, the fabric and fiber products excellent in flame retardance, chemical resistance, fabric strength, and lightweight are obtained.

Hereinafter, embodiments of the present invention will be described in detail.
The fabric of the present invention includes a yarn including a polybenzimidazole fiber and a copolymerizable aromatic polyamide fiber.
Here, the polybenzimidazole fiber may be a commercially available product commercially available from PBI Advanced Materials.
On the other hand, as the copolymerizable aromatic polyamide fiber, 80 mol% or more of the polymer repeating unit may be composed of an aromatic copolyamide (copolyparaphenylene • 3.4′oxydiphenylene terephthalamide) represented by the following formula. preferable.

  Such a polyamide may contain various additives. It is also possible to mix up to 10% by weight of another polymeric material with the polyamide, or to replace 10% of the diamine component constituting the polyamide with another diamine component or to replace the diacid chloride component constituting the polyamide. Copolymers with 10% replaced by other diacid chloride components can be used.

  Further, it is preferable that the fibers constituting the yarn are only polybenzimidazole fibers and copolymerizable aromatic polyamide fibers. The weight ratio between the polybenzimidazole fiber and the copolymerized aromatic polyamide fiber is preferably in the range of (former / latter) 20/80 to 80/20 (more preferably 35/65 to 65/35). . When the content of the polybenzimidazole fiber is smaller than the range, the flame retardancy may be reduced. Conversely, if the content of the copolymerizable aromatic polyamide fiber is smaller than the above range, chemical resistance may be reduced.

The yarn may be a multifilament (long fiber), but a spun yarn is preferable in order to achieve both flame retardancy and chemical resistance. By blending a polybenzimidazole fiber and a copolymerization type aromatic polyamide fiber into a spun yarn, both fibers are mixed and both flame retardancy and chemical resistance can be achieved. Above all, short fibers composed of polybenzimidazole fibers having a single fiber fineness of 1 to 5 dtex and a fiber length of 25 to 200 mm, and short fibers composed of copolymerized aromatic polyamide fibers having a single fiber fineness of 1 to 5 dtex and a fiber length of 25 to 200 mm Is preferred.
In such a spun yarn, it is preferable that it is in the range of 10 to 30 in English cotton count. When it is smaller than No. 10 (fineness is large), the weight of the dough may increase and lightness may be impaired. Conversely, if the number is larger than 30 (fineness is small), the tear strength of the fabric may be reduced.

In particular, when the yarn is twisted within a twist coefficient range of 5 to 11, the flame retardancy, chemical resistance and fabric strength are improved, which is preferable.
Twist coefficient = T / √n
Here, T is the total number of twists per 2.54 cm, and n is English cotton count. The total number of twists means, for example, the number of lower twists + the number of upper twists.
If the twist coefficient is less than 5, there is a possibility that a sufficient tear strength cannot be obtained in the fabric. Conversely, if the twist coefficient is greater than 11, the weaving process may be difficult due to untwisting torque.

The method for producing the spun yarn may be a known method, such as ring spinning, core spinning and air jet spinning, or higher air spinning such as Murata air jet spinning in which staple fibers are twisted using air. It may be manufactured by a known spinning technique such as a technique.
In the fabric of the present invention, the structure of the fabric is not limited, and any of a woven fabric, a knitted fabric, and a nonwoven fabric may be used. However, a woven fabric is preferable for obtaining excellent fabric strength. At that time, the woven fabric preferably has a plain weave structure, a twill weave structure, or a satin weave structure.

Preferably, the woven fabric includes a yarn different from the yarn (referred to as "second yarn"), and the second yarn is preferably woven into the warp and the weft in a lattice pattern. Such a tissue is also called a ripstop tissue.
At that time, the interval between the second yarns adjacent to each other in the warp direction and / or the weft direction is preferably in the range of 2 to 15 mm (more preferably, 3 to 8 mm).

The fibers constituting the second yarn include meta-based aromatic polyamide fibers, para-type aromatic polyamide fibers, conductive fibers, polyester fibers, nylon fibers, acrylic fibers, acrylate-based fibers, flame-retardant rayon fibers, and flame-retardant rayon fibers. Combustion vinylon fiber and the like are exemplified.
The second yarn may be a multifilament (long fiber) or a spun yarn.
In the fabric of the present invention, the method for producing the fabric is not particularly limited, and a known weaving machine such as a rapier loom or a gripper loom can be used.

In the fabric of the present invention, the basis weight is preferably in the range of 150 to 300 g / cm ² (more preferably 170 to 250 g / cm ² ). If the basis weight is smaller than the above range, flame retardancy and tear strength may be reduced. Conversely, if the basis weight is larger than the above range, the weight becomes heavy and the lightness may be impaired.

In the fabric of the present invention, in addition to the dyeing processing, functions such as a sweat absorbing agent, a water repellent, a heat storage agent, an ultraviolet ray shielding or antistatic agent, an antibacterial agent, a deodorant, an insect repellent, a light storage agent, and a retroreflective agent are provided. Various other processes may be additionally applied.
Since the fabric of the present invention contains the yarn, the fabric is excellent in flame retardancy, chemical resistance, fabric strength, and lightness.
Here, in the warp direction or the weft direction of the fabric, the value according to JIS L1096 tear strength single tongue A-1 method is preferably 200 N or more (more preferably 200 to 500 N).

Further, in the JIS L1091A-1 method 60 seconds flame contact, it is preferable that the residual flame time is 0.5 seconds or less, the residual dust time is 0.5 seconds or less, and the carbonized area is 3 cm ² or less.
In the JIS L1091A-1 method 12-second flame contact, the afterflame time is 2 seconds or less, the residual time is 2 seconds or less, and the carbonization length is 10 cm or less (more preferably, the residual flame time is 1 second or less, and the residual time is Is 1 second or less, and the carbonization length is 5 cm or less).
Further, according to JIS L1091E, the LOI value is preferably 35 or more (more preferably 35 to 50).
Further, it is preferable that the retention of tear strength before and after immersion in a 20 wt% aqueous solution of sulfuric acid at room temperature for 48 hours is 80% or more.
Further, it is preferable that the retention of tear strength before and after immersion in a 10 wt% aqueous solution of sodium hydroxide at room temperature for 48 hours is 60% or more.
However, the retention of tear strength is calculated by the following equation.
Retention of tear strength (%) = (Tear strength after immersion) / (Tear strength before immersion) × 100

Next, the textile product of the present invention is any one selected from the group consisting of firefighting clothing, fire protection clothing, work clothing, racing suits for motor sports, work clothing, gloves, hats, and vests using the above-mentioned fabric. It is a textile product. The work clothes include work clothes for a steel mill or a steel factory, work clothes for welding work, work clothes in an explosion-proof area, and the like. The gloves include work gloves used in the aircraft industry, information equipment industry, precision equipment industry, and the like that handle precision parts.
Since such a fiber product uses the above-described cloth, it has both flame retardancy, chemical resistance, and excellent physical properties and light weight.
Here, the above-mentioned cloth may be used alone, or may be used in combination with another cloth. In this case, it is preferable that the fabric be constituted by a multilayer structure having the fabric as a surface layer. Particularly preferred multilayer structures include (a) a surface layer made of the fabric of the present invention, (b) an intermediate layer formed by laminating a moisture-permeable waterproof film on a fabric made of flame-retardant fibers, and (c) a flame-retardant fiber. And a heat-insulating layer made of a cloth made of a cloth in this order.

Next, Examples and Comparative Examples of the present invention will be described in detail, but the present invention is not limited thereto.
(1) Fabric weight Measured according to JIS L 1096.
(2) Tear strength Measured according to JIS L 1096 A-1 method (single tongue method).
(3) Flame retardancy Measured according to JIS L 1091 A-1 method 60 seconds flame contact, A-4 method 12 seconds flame contact, E method (LOI).
(4) Chemical Resistance The tear strength before and after immersion in a sulfuric acid 20 wt% aqueous solution at room temperature for 48 hours and the tear strength before and after immersion in a sodium hydroxide 10 wt% aqueous solution for 48 hours at room temperature were evaluated. However, the tear strength was measured by the above method, and the retention of the tear strength was calculated by the following equation.
Retention of tear strength (%) = (Tear strength after immersion) / (Tear strength before immersion) × 100

[Example 1]
40% by weight of polybenzimidazole fiber (manufactured by PBI Advanced Materials) having an average monofilament fineness of 1.5 dtex and a fiber length of 51 mm, copolyparaphenylene • 3.4′oxy having an average monofilament fineness of 1.7 dtex and a fiber length of 51 mm A copolymerized aromatic polyamide fiber (manufactured by Teijin Limited, registered trademark "Technola") composed of diphenylene terephthalamide was blended at a mixing ratio of 60% by weight to obtain a spun yarn. Table 1 shows the number of twists and fineness.
Using the above yarn, weaving was performed with the structure, weft density and basis weight shown in Table 1. Table 1 shows the results of each evaluation test.

[Comparative Example 1]
40 weight% of polybenzimidazole fiber (manufactured by PBI Advanced Materials) having an average single fiber fineness of 1.5 dtex and a fiber length of 51 mm, and an aromatic composed of polyparaphenylene terephthalamide having an average single fiber fineness of 1.7 dtex and a fiber length of 51 mm Polyamide fiber (manufactured by Teijin Limited, registered trademark “Twaron”) was blended at a mixing ratio of 60% by weight to obtain a spun yarn. Table 1 shows the number of twists and fineness.
Using the above yarn, weaving was performed with the structure, weft density and basis weight shown in Table 1. Table 1 shows the results of each evaluation test.

[Comparative Example 2]
20% by weight of a copolymerizable aromatic polyamide fiber (manufactured by Teijin Limited, registered trademark "Technola") composed of copolyparaphenylene / 3.4'oxydiphenylene terephthalamide having an average single fiber fineness of 1.7 dtex and a fiber length of 51 mm. 40% by weight of an aromatic polyamide fiber (manufactured by Teijin Limited, registered trademark "Twaron") composed of polyparaphenylene terephthalamide having an average single fiber fineness of 1.7 dtex and a fiber length of 51 mm, and an average single fiber fineness of 1.7 dtex, fiber A spun yarn was obtained by blending a 51 mm long meta-type aromatic polyamide fiber (manufactured by Teijin Limited, registered trademark “Cornex”) at a mixing ratio of 40% by weight. Table 1 shows the number of twists and fineness.
Using the above yarn, weaving was performed with the structure, weft density and basis weight shown in Table 1. Table 1 shows the results of each evaluation test.

[Comparative Example 3]
A spun yarn was obtained using only polybenzimidazole fiber (manufactured by PBI Advanced Materials) having an average single fiber fineness of 1.5 dtex and a fiber length of 51 mm. Table 1 shows the number of twists and fineness.
Using the above yarn, weaving was performed with the structure, weft density and basis weight shown in Table 1. Table 1 shows the results of each evaluation test.

[Comparative Example 4]
A spun yarn composed only of a copolymerizable aromatic polyamide fiber (manufactured by Teijin Limited, registered trademark “Technola”) composed of copolyparaphenylene / 3.4 ′ oxydiphenylene terephthalamide having an average single fiber fineness of 1.7 dtex and a fiber length of 51 mm. I got Table 1 shows the number of twists and fineness.
Using the above yarn, weaving was performed with the structure, weft density and basis weight shown in Table 1. Table 1 shows the results of each evaluation test.

  According to the present invention, a fabric and a fiber product excellent in flame retardancy, chemical resistance, fabric strength, and lightweight are provided, and their industrial value is extremely large.

Claims (4)

The yarn that includes a polybenzimidazole fibers copolymerized with type aromatic polyamide fibers seen including,
The fiber constituting the yarn is only polybenzimidazole fiber and copolymerized aromatic polyamide fiber, and the weight ratio of polybenzimidazole fiber and copolymerized aromatic polyamide fiber is (former / latter) 20 / 80- 80/20,
The yarn is a spun yarn,
In the yarn is in the range of 10-30 in English cotton count,
The yarn is twisted within a twist coefficient of 5 to 11,
Twist coefficient = T / √n
Here, T is the total number of twists per 2.54 cm, and n is English cotton count.
The fabric is a woven fabric having a plain weave structure or a twill weave structure or a satin weave structure,
The basis weight is in the range of 150 to 300 g / cm ² ,
In the warp or weft direction of the fabric, the value of the JIS L1096 tear strength single tongue A-1 method is 200 N or more,
In the JIS L1091A-1 method 60 seconds flame contact, the after-flame time is 0.5 seconds or less, the dust time is 0.5 seconds or less, and the carbonized area is 3 cm ² or less,
In the JIS L1091A-1 method 12 seconds flame contact, the afterflame time is 2 seconds or less, the dust time is 2 seconds or less, and the carbonization length is 10 cm or less,
According to JIS L1091E method, LOI value is 35 or more,
20% by weight sulfuric acid aqueous solution, the retention of tear strength before and after immersion for 48 hours at room temperature is 80% or more,
A fabric characterized by having a 10% by weight aqueous solution of sodium hydroxide and a retention of tear strength before and after immersion at room temperature for 48 hours of 60% or more . The fabric according to claim 1, wherein in the copolymerizable aromatic polyamide fiber, at least 80 mol% of the polymer repeating unit is constituted by an aromatic copolyamide represented by the following formula.

The fabric according to claim 1 or 2 , wherein the woven fabric includes a second yarn different from the yarn, and the second yarn is woven into the warp and the weft in a lattice shape. Any one selected from the group consisting of firefighting suits, fire protection suits, work clothes, racing suits for motor sports, work clothes, gloves, hats, and vests, using the fabric according to any one of claims 1 to 3. Fiber products.