KR20000049531A - Composition of synthetic fiber containing mineral powder and method for producing same - Google Patents

Abstract

PURPOSE: Provided is a composition of synthetic fiber which has excellent functionality, fiber quality and swellability. Thereby, it is possible to produce a composition of synthetic fiber which has excellent far infrared ray effect. CONSTITUTION: A process for producing a composition of mineral powder for synthetic fiber comprises following the steps of: calcining a mineral selected from phyllosilicates mineral to pulverize the mineral to the size of 325mesh; pulverizing the mineral to the size no more than 10micron to pulverize the mineral to the size no more than 1micron; and then mixing a 70-90% by weight of phyllosilicates mineral powder, Ag and 10-30% by weight of inorganic antivirus powder to spin a fiber. The phyllosilicates mineral comprises pyrophyllite, talc, moscovite, biotite, montmorillonite, chlorite and kaolinite as main component.

Description

Composition of synthetic fiber containing mineral powder and method for producing the same

The present invention is a surface layer of the yarn when it is mixed with a chemical resin using a mineral powder to spin the yarn, smooth, flexible, can perform a smooth yarn production process, and to achieve various multi-function effects such as far infrared It relates to a process for the preparation of the composition.

The minerals are listed in Table 1.

Table 1

Elemental minerals, sulfide minerals, halogen minerals, oxidized minerals, hydroxide minerals, nitrate minerals, carbonate minerals, borate minerals, sulfate minerals, chromate minerals, tungstate minerals, molybdate minerals, phosphate minerals, nitrate minerals, vanadium minerals, silicates Minerals (gisosilicates, sorosilicates, cyclosilicates, inosilicates, phyllosilicates, tectosilicates), organic salt minerals, synthetic minerals.

The minerals are artificial synthetic minerals that can be made artificially with natural minerals. In particular, when producing the synthetic fiber by adding the mineral powder, it should be noted that when used as a medical material, minerals should be free of toxic substances and no harmful substances to the human body, and should be free of radioactivity or radioactivity.

Conventionally, in a series of manufacturing processes in which a certain amount of the mineral powder is added to a chemical resin to spin, stretch, combust, cut, spin, and serve, the powder of mineral powder added to the chemical resin is attached to the equipment, that is, metal (rolling steel, roller, Guide, body) and the like to wear parts, the surface of the yarn is not uniform and the trimming is frequent, the normal fiber could not be produced.

The present invention is to solve the above-mentioned problems and to produce a soft and flexible fiber compared to the general chemical fiber, the crystalline form selected from the mineral group of Table 1 is in the form of tabletop, or plate-like, scaly, mineral The problem could be solved by adding a powder having a slippery mineral as a fine powder.

In addition, minerals that have been added to synthetic fibers for a long time include inorganic synthetic powders such as silver (Ag), calcium phosphate, zeolite, germanium, ganban, gemstones, tourmaline, carbon, etc. It is added to synthetic fibers and has multifunctional effects such as antibacterial, deodorization, far infrared rays, electromagnetic wave blocking, magnetic line blocking, adsorption, moisture absorption, and anion emission. No radiation effect was obtained.

In the present invention, the crystalline form of the mineral having a function as shown in Table 2 is selected from one or more of the minerals in the form of table or plate, scale and low hardness, or at least one of the minerals in Table 1, respectively, and the firing temperature of 800 ℃ to 1300 After calcination at 占 폚, the fine pulverization is performed so that the particle size of the powder is 10 microns or less, or the mixture is pulverized to a thickness of 1 micron or less, and it is a polyester resin, polyamide, polypropylene, polyacryl, which is a chemical resin. Choose from ronitrile, biscous rayon and acetate rayon, respectively, and mix and mix 1 ~ 3% by weight mineral powder of 1 micron or less in 97 ~ 99% by weight of chemical resin in yarn production of 3 denier or less, and spinning in yarn production of 3 denier or more. Mineral powder composition is added to chemical resin by spinning 3 ~ 10% by weight of chemical resin 90 ~ 97% by weight The.

When the composition prepared as described above is mixed with chemical resin and spun, it produces various functional fibers such as far infrared ray, anion release, hygroscopicity, antibacterial and deodorization, and of course, does not wear parts of equipment in a series of manufacturing processes. Excellent yarn can be spun

[Table 2]

◎ Phyllosilicates Mineral (Layered)

① pyrophyllite-Al ₂ Si ₄ O ₁₀ (OH) ₂ ,

② talc

◆ Baiyun group: dioctahedral

① paragonite-NaAl ₂ (Al, Si ₃ ) O ₁₀ (OH) ₂ ,

② Muscovite-KAl ₂ (AlSi ₃ ) O ₁₀ (OH) ₂ ,

③ glauconite- (K, Na) (Al, Fe3 + Mg) ₂ (Al, Si) ₄ O ₁₀ (OH) ₂ ,

④ celadonite-K (Mg, Fe) (Fe3 +, Al) Si ₄ O ₁₀ (OH) ₂ ,

⑤ margarite-CaAl ₂ (Al ₂ Si ₂ ) O ₁₀ (OH) ₂ ,

⑥ micaschist,

⑦Lepidomelane-KFeALSio (OH, F)

⑧Ilite

◆ Biotite Group

① gold mica (phlogopite) -KMg ₃ (AlSi ₃ ) O ₁₀ (F, OH),

② red mica (lepidolite) -K (Li, Al) ₃ (Si, Al) ₄ O ₁₀ (F, OH) ₂ ,

③zinnwaldite-KLiFe + 2Al (Al, Si ₃ ) O ₁₀ (F, OH) ₂ ,

④Stilpnomelane-K (Fe + 2, Fe + 3, Al) ₁₀ Si ₂₂ O ₃₀ (OH) ₁₂

⑤Lepidolite-K (Li, Al) ₃ (Si, Al) ₄ O ₁₀ (F, OH) ₂

Montmorillonite County

(1) Baydellite- (Na, Ca / 2) _0.03 Al ₂ (Al, Si) ₄ O ₁₀ (OH) ₂ ㆍ nH ₂ O,

Montmorillonite- (Na, Ca) _0.33 (Al, Mg) ₂ Si ₄ O ₁₀ (OH) ₂ nH ₂ O,

③ nontronite-Na _0.33 Fe ₂ +3 (Al, Si) ₄ O ₁₀ (OH) ₂ nH ₂ O,

④ saponite- (Ca / 2, Na) _0.33 (Mg, Fe) ₃ (Si, Al) ₄ O ₁₀ (OH) ₂ 4H ₂ O,

⑤ vermiculite- (Mg, Fe, Al) ₃ (Al, Si) ₄ O ₁₀ (OH) ₂ ㆍ 4H ₂ O

◆ chlorite group

① penninite,

② Monoclinic chlorine (clinochlore)-(Mg, Fe2 +) ₅ Al (Si, Al) ₄ O ₁₀ (OH) ₈ ,

③ prochlorite = ripidolite- (Mg, Fe, Al) ₆ (Si, Al) ₄ O ₁₀ (OH) ₈ ,

④ chamosite- (Fe2 +, Mg, Fe3 +) ₅ Al (Si ₃ Al) O ₁₀ (OH, O) ₈ ,

⑤ Thuringite

◆ kaolinite-kaolinite-serpentine group

① kaolinite-Al ₂ Si ₂ O ₅ (OH) ₄ ,

② antigorite- (Mg, Fe) ₃ Si ₂ O ₅ (OH) ₄ ,

③ hot stone surface (chrysotile) -Mg ₃ Si ₂ O ₅ (OH) ₄ ,

④ amesite- (Mg ₂ Al) (AlSi) O ₅ (OH) ₄ ,

⑤ cronstedtite,

⑥halloysite-Al ₂ Si ₂ O ₅ (OH) ₄ ㆍ 2H ₂ O dehydrated to Al ₂ Si ₂ O ₅ (OH) ₄ ,

⑦ palygorskite (= attapulgite)-(Mg, Al) ₂ Si ₄ O ₁₀ (OH) .4H ₂ O]

The main cause of wear of the equipment, which was a problem in chemical fiber added with mineral powder, is that the crystalline form of the metal mineral (cleft) is made up of a variety of pyramidal, columnar, rhombohedral, hexahedral, octahedral, and dodecahedral forms. Due to the characteristic of irregularities on the surface of the yarn, the wear of the metal is not only worn out by friction, but also the spinning equipment is expensive. In addition, it was difficult to spin due to frequent trimming during spinning and could not produce normal yarn. Therefore, the surface of the fiber should be slippery in order for the synthetic fiber added with mineral powder to be produced normally, so the crystal form is tabletop, plate-like or scale-like, and has a function of pyrophyllite, kaolinite (serpentine) group, The purpose of the present invention was achieved by forming a mineral powder such as montmorillonite group, chlorite group, dolomite group, biotite group and adding to chemical resin.

Accordingly, in order to solve the problem, the present invention mixes 10 to 80% by weight of the mineral powder composition selected from the Table 1 group with 20 to 90% by weight of the mineral powder composition selected from the Table 2 group, and then adds silver ion-added inorganic antimicrobial agent. The composition is prepared by mixing the powder composition in a proportion of 10 to 30% by weight. At this time, the particle diameter of the mineral powder is less than 1/3 of the yarn fineness during spinning, and 1 micron or less is particularly preferable for yarns of 3 denier or less.

When the mineral powder made of such a particle diameter is mixed with a chemical resin, the mixing ratio is 1 to 3% by weight of the mineral powder to yarns of 3 denier or less and 3 to 10% by weight of mineral powder in the case of 3 denier and yarns. .

Hereinafter, the present invention will be described in more detail with reference to Examples. The following examples are not intended to limit the invention to this, only to illustrate specific examples.

(Example 1)

Dolomite, biotite, and gold mica selected from the phyllosilicate minerals are calcined with jadeite, inorganic antimicrobial agent and firing temperature 800 ℃ ~ 1,300 ℃, and finely pulverized into fine particles to 10 microns or less, 70% by weight mica powder and 15% by weight jade powder After mixing, the mixed powder was composed of 15% by weight of the inorganic antimicrobial agent.

(Example 2)

In the same manner as in Example 1, the powder was precisely ground to have a particle size of 1 micron or less, thereby preparing a mixed powder.

(Example 3)

The mineral powders pulverized with 325 mesh and selected from the mineral group in Table 2 were pulverized to 325 mesh and calcined at a firing temperature of 800 ° C to 1,300 ° C. The mixed powder was composed of 90% by weight and 10% by weight of the inorganic antimicrobial agent.

(Example 4)

Minerals of tourmaline, ganbanite, germanium, carbon, minerals with inorganic antibacterial and plate-like selenite were calcined and pulverized in the same manner as in Example 1, and the mixing ratio was 50% by weight of celandite, 15% by weight of tourmaline, 10% of ganban The mixed powder was composed of wt%, germanium 5 wt%, carbon 10 wt%, and inorganic antibacterial 10 wt%.

The present invention solves problems in producing yarns by mixing functional mineral powders with chemical resins and gives a composite function to the fibers, as well as being lighter, softer, slippery, and more flexible than ordinary fibers. It can produce fiber, which can produce spinning, stretching, flamming, cutting, spinning smoothly, and also has far-infrared emission, antibacterial, deodorization, electromagnetic wave prevention, UV protection, anion emission, adsorption, hygroscopicity, comfort, warmth, and thermal effect. Provided is a composition comprising a mineral powder capable of producing fibrous fibers.

Claims (2)

a) calcining at least one mineral selected from the group of phyllosilicate minerals (layered forms) in which the crystalline form is tabletop, plate-like or scaly, ㅇ pulverizing to 325 mesh by crusher; ㅇ milling to less than 10 microns by a mill; ㅇ milling to less than 1 micron by a mill; b) at least one inorganic antimicrobial agent selected from the group consisting of inorganic antimicrobials, silver (Ag), zeolites and calcium phosphates; ㅇ milling to less than 10 microns by a mill; ㅇ milling to less than 1 micron by a mill; c) 70 to 90% by weight of a phyllosilicate mineral powder having a particle diameter of the pulverized mineral powder of 1/3 or less of fiber fineness, Minerals for synthetic fibers characterized in that 1 to 10% by weight of the mineral powder composition is mixed with 90 to 99% by weight of the chemical composition of the powder composition containing silver (Ag) and 10 to 30% by weight of the inorganic antimicrobial powder. Powder composition and its manufacturing method. The mineral powder composition for synthetic fibers according to claim 1, wherein at least one selected from the natural mineral or artificial synthetic mineral having a function with the mixed mineral powder composition is prepared and mixed by the method of claim 1. Its manufacturing method.