CN1379145A - Process to treat polyester fabric for high moisture permeability - Google Patents

Process to treat polyester fabric for high moisture permeability Download PDF

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Publication number
CN1379145A
CN1379145A CN 01109758 CN01109758A CN1379145A CN 1379145 A CN1379145 A CN 1379145A CN 01109758 CN01109758 CN 01109758 CN 01109758 A CN01109758 A CN 01109758A CN 1379145 A CN1379145 A CN 1379145A
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China
Prior art keywords
amino acid
low temperature
polyester textile
fabric
processing methods
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CN 01109758
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Chinese (zh)
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CN1180153C (en
Inventor
金鲜英
刘必前
江雷
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Institute of Chemistry CAS
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Institute of Chemistry CAS
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Priority to CNB011097582A priority Critical patent/CN1180153C/en
Publication of CN1379145A publication Critical patent/CN1379145A/en
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Publication of CN1180153C publication Critical patent/CN1180153C/en
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Abstract

A process for processing the polyester fabric to make it have high moisture permeability includes such steps as putting polyester fabric in tank, vacuumizing to less than 0.01 Torr, introducing non-polymerizing gas, regulating pressure to 0.05-5 Torr, glow discharging at 1KHz-100 MHz and 5-400 W for 3-300 S, finishing with the aqueous solution of amino acid and glow discharging again. The processed polyester fabric features high moisture permeability, smooth surface and good touch feeling.

Description

The saturating wet processing methods of polyester textile
The invention belongs to the textiles manufacture field, particularly the saturating wet processing methods of polyester textile.
Polyester textile has good intensity and stability, and it is heat-resisting, fast light, acid and alkali-resistance, antioxidant and better performances such as wear-resisting.But the polyester textile hygroscopicity is poor, and the ability that its fabric sees through the high hot sweat gas of skin drainage is that poisture-penetrability is poor, accumulates static easily on fiber, thereby has influenced people's wearing comfortableness.
In order to improve the hygroscopicity of polyester textile, reduce surface electrostatic, improving snugness of fit, people improve polyester textile constantly attempting, as with acrylic acid, methacrylic acid etc. fiber being carried out grafting; With the compound copolymerization that contains hydrophilic radical or be mixed and made into polymer or the like.But preceding a kind of method is the treatment effect poor repeatability not only, and can cause the reduction of fibre strength and dyefastness; A kind of method in back then can influence the spinnability or the intensity of fiber.
In order to overcome the defective of said method, people have developed the method for utilizing Polyester Treated with Low Temperature Plasma fiber or fabric.Promptly generate hydrophilic radicals such as carboxyl, hydroxyl, amino at fiber or fabric face, improve the hydrophily of fabric by Low Temperature Plasma Treating.But the hydrophilic group that generates enters into the fibre-forming polymer internal layer along with the motion of fiber molecule chain, can not keep effect for a long time.
Use the fabric after Low Temperature Plasma Treating amino acid is put in order among the Japanese patent laid-open 5-295657.Promptly earlier flood polyester textile with amino acid solution, Low Temperature Plasma Treating is used in the back, makes the amino acid cross-linked polymeric, be bonded on the fiber, thus the polyester textile of the hygroscopicity of obtaining and good hand touch.But polyester fibre surface is hydrophobicity, has influenced the absorption of amino acid on fiber.
The objective of the invention is to overcome the defective of above-mentioned prior art when handling polyester textile, a kind of saturating wet processing methods of polyester textile is provided, makes the amino acid cross-linked polymeric, form water-fast polymeric membrane, be bonded on the fiber, obtain the polyester textile that hygroscopicity and persistence further improve.
Technical scheme of the present invention is: with non-polymerization gas low temperature Cement Composite Treated by Plasma polyester textile, generate hydrophilic radical at fiber surface earlier, increase the absorption affinity of amino acid to fiber.Then this fabric is put in order with amino acid solution, used non-polymerization gas low temperature Cement Composite Treated by Plasma at last again, make the amino acid cross-linked polymeric, form water-fast polymeric membrane, be bonded on the fiber.
Described non-polymerization gas low temperature Cement Composite Treated by Plasma is meant puts into treatment trough to fabric, then the pressure in the treatment trough is evacuated to below the 0.01Torr with vavuum pump, feeds non-polymerization gas, and pressure regulation power is 0.05~5Torr, preferred 0.1~1.0Torr; Between the electrode that treatment trough is placed, apply voltage and carry out glow discharge, carry out Low Temperature Plasma Treating; Applying the voltage discharge frequency is 1KHz~100MHz, preferred 13.56MHz, and power is 5~400W, preferred 20~300W, 3~300 seconds processing times, preferred 5~60 seconds; Then this fabric is put in order with amino acid solution, used non-polymerization gas low temperature Cement Composite Treated by Plasma at last again, make the amino acid cross-linked polymeric, form water-fast polymeric membrane, be bonded on the fiber.
During above-mentioned Low Temperature Plasma Treating, if vacuum is low excessively, the mean free path of electronics is little, electronics energy from the external electric field acquisition in a collision cycle is little, thereby energy is high enough to excite the number of electrons of ionized gas molecule or atom few, the number of active particle is few in the plasma atmosphere, and energy is low, acts on the weak effect behind the wool surface; If vacuum is too high, gas is thin, and number of particles itself is just few, can be used for exciting, the number of particles that ionization generates active particle just still less, thereby it is few to act on the number of particles on wool surface, two opposite factors make when vacuum is moderate, just can obtain best treatment effect.During Low Temperature Plasma Treating, if discharge power is too little, the then required processing time is long; If power is too big, and discharge instability reacts bad control.If processing time does not have effect too short; If long, bigger to fibre damage.
Described non-polymerization gas low temperature plasma is meant that self does not carry out the gas of polymerization under plasmoid, as air, O 2, N 2, H 2, CO 2, Ar, He, NH 3Deng the low temperature plasma of gas or their mist, make the ionization or excite under low-pressure state of these gases with electric energy.
Described amino acid is the amino acid that has acidic-group and basic group in alanine, Gly, L GLU or the silk amino acid equimolecular.
Describedly can use commonsense methods such as dipping, spraying or coating when handling fabric with amino acid.Wherein Jin Zi method is simple to operate, and finishing agent can fully contact with fiber, helps obtaining better effect.
Described amino acid dip finishing condition is:
Finishing agent: 50~300g/L amino acid solution
Bath raio 1: 10~1: 60
Finishing technique is: 15~45 ℃ of dipping temperatures, 70~90 ℃ of time 10~40min → pick-up rate 70~90% → preliminary drying temperature, 100~130 ℃ of time 5~10min → stoving temperature, 1~4min.
Among the present invention for the second time non-polymerization gas low temperature Cement Composite Treated by Plasma make the amino acid cross-linked polymeric, form water-fast polymeric membrane, be bonded on the fiber, hygroscopicity can be obtained and poisture-penetrability is good, soft smooth, effect is lasting, the polyester textile that fastness to washing is good.The amino acid of fabric face can not only reduce static, and has improved the poisture-penetrability of fabric, not only human body is had health care, and this method also has the environmental protection effect simultaneously.
Below in conjunction with embodiment technical scheme of the present invention is further described.
Embodiment 1:
Step 1. Low Temperature Plasma Treating (producing the hydrophilic radical process)
Polyester textile is cut into the square sample of 20cm, carries out the Low Temperature Plasma Treating of oxygen gas with following low temperature plasma condition.
The Low Temperature Plasma Treating condition:
Gas: oxygen, vacuum: 0.2Torr, frequency: 13.56MHz, power: 50W, processing time: 60 seconds.
Step 2. amino acid arrangement (amino acid adsorption process)
Fabric after the Low Temperature Plasma Treating is carried out the amino acid arrangement with following condition.
Amino acid finishing condition and technology:
Finishing agent: the 150g/L alanine aqueous solution, bath raio 1: 20;
Finishing technique is: 40 ℃ of dipping temperatures, 90 ℃ of time 20min → pick-up rate 90% → preliminary drying temperature, 100 ℃ of time 5min → stoving temperatures, time 3min.
Step 3. Low Temperature Plasma Treating (amino acid cross-linked polymeric process)
Fabric after the above-mentioned amino acid arrangement is carried out Cement Composite Treated by Plasma.Process conditions are as follows:
The Low Temperature Plasma Treating condition:
Gas: oxygen, vacuum: 0.2Torr, frequency: 13.56MHz, power: 100W, processing time: 20 seconds.
Obtain polyester textile through saturating wet process.
Embodiment 2:
Use with embodiment 1 in identical fabric carry out following processing.
Step 1. Low Temperature Plasma Treating
The Low Temperature Plasma Treating condition:
Gas: air, vacuum: 0.2Torr, frequency: 13.56MHz, power: 200W, processing time: 20 seconds.
Step 2. the amino acid arrangement
Amino acid finishing condition and technology:
Finishing agent: the 200g/L glycine solution, bath raio 1: 30,
Finishing technique is: 30 ℃ of dipping temperatures, 80 ℃ of time 20min → pick-up rate 90% → preliminary drying temperature, 120 ℃ of time 8min → stoving temperatures, time 2min.
Step 3. Low Temperature Plasma Treating
The Low Temperature Plasma Treating condition:
Gas: air, vacuum: 0.2Torr, frequency: 13.56MHz, power: 100W, processing time: 20 seconds.
Obtain polyester textile through saturating wet process.
Embodiment 3:
Use with embodiment 1 in identical fabric carry out following processing.
Step 1. Low Temperature Plasma Treating
The Low Temperature Plasma Treating condition:
Gas: nitrogen, vacuum: 0.5Torr, frequency: 13.56MHz, power: 200W, processing time: 10 seconds.
Step 2. the amino acid arrangement
Amino acid finishing condition and technology:
Finishing agent: the 150g/L serine aqueous solution, bath raio 1: 50,
Finishing technique is: 20 ℃ of dipping temperatures, 90 ℃ of time 40min → pick-up rate 70% → preliminary drying temperature, 130 ℃ of time 5min → stoving temperatures, time 1.5min.
Step 3. Low Temperature Plasma Treating
The Low Temperature Plasma Treating condition:
Gas: nitrogen, vacuum: 0.5Torr, frequency: 13.56MHz, power: 300W, processing time: 5 seconds.
Obtain polyester textile through saturating wet process.
Embodiment 4:
Use with embodiment 1 in identical fabric carry out following processing.
Step 1. Low Temperature Plasma Treating
The Low Temperature Plasma Treating condition:
Gas: hydrogen, vacuum: 0.3Torr, frequency: 13.56MHz, power: 150W, processing time: 15 seconds.
Step 2. the amino acid arrangement
Amino acid finishing condition and technology:
Finishing agent: the 100g/L alanine aqueous solution, bath raio 1: 60,
Finishing technique is: 40 ℃ of dipping temperatures, 90 ℃ of time 30min → pick-up rate 90% → preliminary drying temperature, 130 ℃ of time 5min → stoving temperatures, time 1min.
Step 3. Low Temperature Plasma Treating
The Low Temperature Plasma Treating condition:
Gas: helium, vacuum: 0.1Torr, frequency: 13.56MHz, power: 250W, processing time: 3 seconds.
Obtain polyester textile through saturating wet process.
Comparative example 1: the fabric with identical among the embodiment 1, do not carry out any processing.
Comparative example 2: with fabric identical among the embodiment 1, except not carrying out the step 1 among the embodiment 1, all the other technologies are identical.
Each washed with de-ionized water 20min of personal 20 ℃ of polyester textile that the foregoing description 1~4 and comparative example 1, comparative example 2 are obtained is to remove the floating thing on surface.Put into 100 ℃ of baking ovens then and dry 4 hours, claim that its weight is a to removing moisture.This fabric is positioned over 20 ± 2 ℃, and indoor 48 hours of relative humidity 65 ± 2% claim that its weight is b.Then hydroscopicity is (b-a)/a.With the condition of soaping among the GB/T3921.1-1997 fabric is washed, the fabric after soaping is put into 100 ℃ of baking ovens dries 4 hours to removing moisture, claims that its weight is a '.This fabric is positioned over 20 ± 2 ℃, and indoor 48 hours of relative humidity 65 ± 2% claim that its weight is b '.Then hydroscopicity is (b '-a ')/a ' * 100%.Its experiment the results are shown in table 1.
Table 1
The hydroscopicity of not soaping (%) 5 times the hydroscopicity (%) of soaping 10 times the hydroscopicity (%) of soaping
Embodiment 1 ????2.23 ????2.15 ????1.96
Embodiment 2 ????2.12 ????1.87 ????1.64
Embodiment 3 ????2.05 ????1.94 ????1.78
Embodiment 4 ????2.04 ????1.84 ????1.60
Comparative example 1 ????0.34 ????0.31 ????0.35
Comparative example 2 ????1.72 ????0.95 ????0.51
Compare with comparative example as can be seen from above-mentioned experimental result, use Low Temperature Plasma Treating earlier, handle with amino acid then, polyester textile with Low Temperature Plasma Treating has better hygroscopicity again, and soft smooth, effect is lasting, and fastness to washing might as well.

Claims (6)

1. the saturating wet processing methods of a polyester textile, it is characterized in that: earlier with non-polymerization gas low temperature Cement Composite Treated by Plasma polyester textile, then this fabric is put in order with amino acid solution, use non-polymerization gas low temperature Cement Composite Treated by Plasma at last again, make the amino acid cross-linked polymeric, form water-fast polymeric membrane, be bonded on the fiber.
2. the saturating wet processing methods of polyester textile as claimed in claim 1, it is characterized in that: described non-polymerization gas low temperature Cement Composite Treated by Plasma is meant puts into treatment trough to fabric, then the pressure in the treatment trough is evacuated to below the 0.01Torr with vavuum pump, feed non-polymerization gas, pressure regulation power is 0.05~5Torr; Between the electrode that treatment trough is placed, apply voltage and carry out glow discharge, carry out Low Temperature Plasma Treating; Applying the voltage discharge frequency is 1KHz~100MHz, and power is 5~400W, 3~300 seconds processing times; Then this fabric is put in order with amino acid solution, used non-polymerization gas low temperature Cement Composite Treated by Plasma at last again, make the amino acid cross-linked polymeric, form water-fast polymeric membrane, be bonded on the fiber.
3. the saturating wet processing methods of polyester textile as claimed in claim 2, it is characterized in that: described discharge frequency is 13.56MHz, and pressure regulation power is 0.1~1.0Torr, and power is 20~300W, and the processing time is 5~60 seconds.
4. the saturating wet processing methods of polyester textile as claimed in claim 1 or 2, it is characterized in that: described non-polymerization gas is meant that self does not carry out air, the O of polymerization under plasmoid 2, N 2, H 2, CO 2, Ar, He, NH 3Or their mist.
5. the saturating wet processing methods of polyester textile as claimed in claim 1 or 2 is characterized in that: described amino acid is alanine, Gly, L GLU or silk amino acid.
6. the saturating wet processing methods of polyester textile as claimed in claim 1 or 2 is characterized in that: described amino acid finish fabric is with dipping, spraying or coating process.
CNB011097582A 2001-04-10 2001-04-10 Process to treat polyester fabric for high moisture permeability Expired - Fee Related CN1180153C (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102352542A (en) * 2011-08-16 2012-02-15 南京工业大学 Method for improving dacron comfortableness through polyaspartic acid finishing agent
CN102561041A (en) * 2011-12-19 2012-07-11 天津工业大学 Method for improving comfort of polyester fabric by finishing with polyaspartic acid
CN102677474A (en) * 2012-06-06 2012-09-19 天津工业大学 Method for improving water and moisture absorbability of polyester fabric by using gamma-polyglutamic acid hydrogel
CN103572581A (en) * 2013-10-30 2014-02-12 江苏东煌家用纺织制品有限公司 Finishing method of cool fabrics
CN107675480A (en) * 2017-10-12 2018-02-09 东华大学 A kind of method that directional water guiding fabric is obtained using corona treatment
CN117468228A (en) * 2023-12-28 2024-01-30 烟台舜康生物科技有限公司 Preparation method of shape memory spandex pressure socks

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102352542A (en) * 2011-08-16 2012-02-15 南京工业大学 Method for improving dacron comfortableness through polyaspartic acid finishing agent
CN102561041A (en) * 2011-12-19 2012-07-11 天津工业大学 Method for improving comfort of polyester fabric by finishing with polyaspartic acid
CN102677474A (en) * 2012-06-06 2012-09-19 天津工业大学 Method for improving water and moisture absorbability of polyester fabric by using gamma-polyglutamic acid hydrogel
CN103572581A (en) * 2013-10-30 2014-02-12 江苏东煌家用纺织制品有限公司 Finishing method of cool fabrics
CN107675480A (en) * 2017-10-12 2018-02-09 东华大学 A kind of method that directional water guiding fabric is obtained using corona treatment
CN117468228A (en) * 2023-12-28 2024-01-30 烟台舜康生物科技有限公司 Preparation method of shape memory spandex pressure socks
CN117468228B (en) * 2023-12-28 2024-03-29 烟台舜康生物科技有限公司 Preparation method of shape memory spandex pressure socks

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