CN102797069A - Method for preparing nano titanium dioxide modified polyester fibers - Google Patents

Abstract

The invention relates to a method for preparing nano titanium dioxide modified polyester fibers. The method comprises preparation of nano titanium dioxide modified polyester fiber slices and spinning of a blended fully drawn yarn (FDY) process. The method can be finished on conventional spinning equipment; and the polyester fibers have the characteristics of uniform slivers, uniform color distribution, fabric flatness and soft luster, and can be widely applied in the fields of dress, decoration and industries.

Description

The preparation method of nano-titanium dioxide modified polyster fibre

Technical field

The present invention relates to a kind of preparation method of synthetic fiber, particularly, the present invention relates to a kind of preparation method of nano-titanium dioxide modified polyster fibre.

Background technology

Terylene is as one of the big main force of three in synthetic fiber fiber, because of its good physics and chemical characteristic are widely used in garment material and other non-garment industry.Dacron product since coming out, also once with its drapability is good, intensity is high, well-pressed and be used as main textile raw material by downstream user and weave all kinds of textiless.Along with economic globalization, the market internationalization, people are also increasingly high to the requirement of clothes; Not only to have comfortableness; Also will have functionally, lining just develops to light, gentle, functional direction, and composite fibre materials just need improve constantly performance and satisfy requirements of weaving process.

Over past ten years, the development of China polyester industrial rapidly, polyester fiber output is 2,700 ten thousand tons of developing into for the year ends 2010 of 516.5 ten thousand tons at the beginning of 2000, average annual growth rate surpasses 25%, has accounted for 66% of global polyester output.Terylene has become the maximum synthetic fiber kind of output in the chemical fibre, is widely used in clothing, decoration, household textiles, fabrics for industrial use and national economy various aspects such as national defence, Industrial Engineering.5 years from now on, also will keep increasing fast.But as textile material, polyester fiber also has significant disadvantages.Therefore, the processing method of selection science, efficient, high-quality, energy-saving and environmental protection is to adapting to and promoting that the high speed sustainable development of polyester industrial, polyster fibre is most important.

Though in synthetic fiber, polyester fiber has the multiple performance of suitable textile applications and application in industry, thereby it has obtained amazing development since large-scale production.But along with the development of World Science development of technology and world industry, polyester fiber can not satisfy people's requirement fully on performance and function.The result of development and innovation makes people develop large quantities of differential, functionalization and high performance synthetic fiber.

The developing direction of PET industry has been represented in the development and application of present differential polyester fiber new varieties.The technology of differential polyester product exploitation roughly can reduce the following aspects:

(1) spining technology of compound spinning superfine fibre and spin pack design;

(2) the compound spining technology that spins bi-component functional fiber or fibre in differentiation;

(3) fused mass directly spinning prepares the complete set technology of thin dawn, micro denier polyester fiber;

(4) spining technology of various cross section Design of spinneret and profiled filament;

The spining technology of (5) three different fibers and mix fine Design of spinneret with plate;

(6) different contraction mixed fiber yarn Combined Machining Technology;

(7) polymer modification prepares the preparation of functional polyester and fiber thereof;

(8) polymer modification prepares the Application and Development of intelligent fiber and intelligent lining;

(9) the nano-powder in-situ polymerization prepares functional polyester and fiber thereof;

(10) preparation of multiple organic or inorganic nano particle and dispersion technology;

(11) preparation and the spining technology of organic or inorganic nano particle/polymer-matrix composite polyester material;

(12) natural fabric and synthetic fiber, chemical-fibres filaments and short fiber multidimensional combination technology.

Because " small-size effect ", " interfacial effect ", " quantum size effect " and " macro quanta tunnel effect " that nano material had make nano material show the specificity different with common material at aspects such as structure, photoelectricity, magnetic and chemical property.

The present inventor is devoted to the characteristics of nano material aspect the function specificity were incorporated in synthesizing of polyster fibre, and combines slice spinning technology of the prior art to accomplish the present invention.

Summary of the invention

The objective of the invention is to continually develop functional polyester fiber in order to satisfy many-sided needs of people to weaving face fabric, we carry out modification through nano modifier to traditional polyester fiber.

To achieve these goals, the invention provides following technical scheme:

A kind of preparation method of nano-titanium dioxide modified polyster fibre comprises the preparation and the spinning of blend FDY technology of modified dacron section; The preparation technology who it is characterized in that described modified dacron section comprises the steps:

At first; On continuous polycondensation equipment; Adopt terephthalic acid (TPA) (PTA), ethylene glycol (EG) monomer; Mol ratio 1 according to PTA and EG: 1.20-1: 1.30 ratio is measured continuously and stably separately and is joined in the slurry still and pulls an oar, and adds nano titanium oxide, nano aluminium oxide, TITANIUM DIOXIDE DELUSTRANT in the making beating still, and wherein the mol ratio of the addition of nano titanium oxide and terephthalic acid (TPA) is 3.5-7.8%; The addition of nano aluminium oxide and the mol ratio of terephthalic acid (TPA) are 0.25-0.65%, and the addition of TITANIUM DIOXIDE DELUSTRANT and the mol ratio of phthalic acid are 1.2-2.5%;

Then, above-mentioned slurry continous-stable is delivered in esterification-I, the esterification-II agitated reactor, adds stabilizing agent in esterification-II agitated reactor simultaneously continuously, control esterification yield 94.5%-99.0%, the viscosity of melt is controlled to be 0.64-0.67; Carboxylate is pumped into polycondensation workshop section, under temperature 275-283 ℃ condition, makes the modified poly ester melt through precondensation and final minification polymerizing technology again, wherein said stabilizing agent is a trimethyl phosphate, and the mol ratio of its addition and terephthalic acid (TPA) is 0.18-0.45%; The modified poly ester melt is obtained the nano modification terylene chips through Cast Strip, pelletizing and drying.

Wherein, Blend FDY spinning comprises the steps: above-mentioned nano modification terylene chips and terylene chips are cooled off → oil → path → first godet roller → second godet roller → winding process through screw extruder → static mixing → metering → filament spinning component → blowing in the ratio blend of mass ratio 12-23: 77-88; The temperature of wherein controlling the melt Conveying pipeline is 268-275 ℃, and spinning body temperature is 289-292 ℃, lateral blowing wind speed 0.35-0.70 meter per second; The first godet roller speed 900-1300m/min; Temperature 75-92 ℃, the second hot-rolling speed 3200-4200m/min, temperature 95-115 ℃.

Wherein, the average grain diameter of described nano titanium oxide is 20nm-100nm.

Wherein, the modified dacron section is pressed mass ratio 15-20: 80-85 with terylene chips.

Wherein, described terylene chips is that routine has much light terylene chips, half delustring terylene chips or full-dull terylene chips.

Wherein, the fibre section for preparing of spinnerets through the adjustment filament spinning component is circle, trilobal, triangle, cross, king's font, hollow shape or five leaf.

The invention has the beneficial effects as follows that the present invention through reducing the fluctuation of various parameters in the spinning process, has suppressed the destabilizing factor in the nano modification polyster fibre production process adopting stable technology to make.The inventive method can be accomplished on conventional spinning equipment, and tow strip is done evenly, and color and luster is evenly distributed, and fabric is smooth, has the soft characteristics of gloss, can be widely used in the field of taking, decoration field and industrial field; The fiber for preparing has fluorescent effect, no matter ultraviolet ray or ultraviolet ray is all had reflex preferably.

The specific embodiment

To combine concrete embodiment that technical scheme of the present invention is done further to explain and explanation below.

Embodiment 1

The preparation technology of nano modification section:

At first; On continuous polycondensation equipment; Adopt terephthalic acid (TPA) (PTA), ethylene glycol (EG) monomer; Measure continuously and stably separately and join in the slurry still according to 1: 1.25 the ratio of mol ratio of PTA and EG and pull an oar, add nano titanium oxide, nano aluminium oxide, TITANIUM DIOXIDE DELUSTRANT in the making beating still, wherein the mol ratio of the addition of nano titanium oxide and terephthalic acid (TPA) is 6.8%; The addition of nano aluminium oxide and the mol ratio of terephthalic acid (TPA) are 0.55%, and the addition of TITANIUM DIOXIDE DELUSTRANT and the mol ratio of phthalic acid are 2.5%;

Then, above-mentioned slurry continous-stable is delivered in esterification-I, the esterification-II agitated reactor, adds stabilizing agent in esterification-II agitated reactor, control esterification yield 98.0%, the viscosity of melt is controlled to be 0.65; Carboxylate is pumped into polycondensation workshop section, under temperature 275-283 ℃ condition, makes the modified poly ester melt through precondensation and final minification polymerizing technology again, wherein said stabilizing agent is a trimethyl phosphate, and the mol ratio of its addition and terephthalic acid (TPA) is 0.35%; The modified poly ester melt is obtained the nano modification terylene chips through Cast Strip, pelletizing and drying.Wherein, concrete esterification and polycondensation reaction condition are as shown in table 1.

Blend FDY spinning step:

Above-mentioned nano modification terylene chips and terylene chips are cooled off → oil → path → first godet roller → second godet roller → winding process through screw extruder → static mixing → metering → filament spinning component → blowing in 20: 80 ratio blend of mass ratio; The temperature of wherein controlling the melt Conveying pipeline is 272 ℃, and spinning body temperature is 289 ℃, lateral blowing wind speed 0.35 meter per second; The first godet roller speed 1000m/min; 78 ℃ of temperature, the second hot-rolling speed 3200m/min, 102 ℃ of temperature.

Esterification of table 1 modified poly ester and polycondensation reaction condition

Condition	Esterification I	Esterification II	Precondensation	Final minification gathers
					Reaction temperature/℃	267	271	275	283
Reaction pressure	0.44MPa	0.31MPa	6.3KPa	75Pa

Claims (5)

1. the preparation method of a nano-titanium dioxide modified polyster fibre comprises the preparation and the spinning of blend FDY technology of modified dacron section; The preparation technology who it is characterized in that described modified dacron section comprises the steps:

At first; On continuous polycondensation equipment; Adopt terephthalic acid (TPA) (PTA), ethylene glycol (EG) monomer; Mol ratio 1 according to PTA and EG: 1.20-1: 1.30 ratio is measured continuously and stably separately and is joined in the slurry still and pulls an oar, and adds nano titanium oxide, nano aluminium oxide, TITANIUM DIOXIDE DELUSTRANT in the making beating still, and wherein the mol ratio of the addition of nano titanium oxide and terephthalic acid (TPA) is 3.5-7.8%; The addition of nano aluminium oxide and the mol ratio of terephthalic acid (TPA) are 0.25-0.65%, and the addition of TITANIUM DIOXIDE DELUSTRANT and the mol ratio of phthalic acid are 1.2-2.5%;

Then, above-mentioned slurry continous-stable is delivered in esterification-I, the esterification-II agitated reactor, adds stabilizing agent in esterification-II agitated reactor simultaneously continuously, control esterification yield 94.5%-99.0%, the viscosity of melt is controlled to be 0.64-0.67; Carboxylate is pumped into polycondensation workshop section, under temperature 275-283 ℃ condition, makes the modified poly ester melt through precondensation and final minification polymerizing technology again, wherein said stabilizing agent is a trimethyl phosphate, and the mol ratio of its addition and terephthalic acid (TPA) is 0.18-0.45%; The modified poly ester melt is obtained the nano modification terylene chips through Cast Strip, pelletizing and drying.

2. the described preparation method of claim 1; It is characterized in that blend FDY spinning comprises the steps: above-mentioned nano modification terylene chips and terylene chips are cooled off → oil → path → first godet roller → second godet roller → winding process through screw extruder → static mixing → metering → filament spinning component → blowing in the ratio blend of mass ratio 12-23: 77-88; The temperature of wherein controlling the melt Conveying pipeline is 268-275 ℃, and spinning body temperature is 289-292 ℃, lateral blowing wind speed 0.35-0.70 meter per second; The first godet roller speed 900-1300m/min; Temperature 75-92 ℃, the second hot-rolling speed 3200-4200m/min, temperature 95-115 ℃.

3. the described preparation method of claim 1 is characterized in that nano modification terylene chips and terylene chips are by mass ratio 15-20: 80-85.

4. the described preparation method of claim 1 is characterized in that described terylene chips is that routine has much light terylene chips, half delustring terylene chips or full-dull terylene chips.

5. the described preparation method of claim 1 is characterized in that the fibre section is circle, trilobal, triangle, cross, hollow shape or five leaf.