CN105986334A - Antibacterial soft magnetic door gauze and preparation method thereof - Google Patents

Abstract

The invention discloses antibacterial soft magnetic door gauze. The gauze comprises the following raw materials in parts by weight: 1-2 parts of fatty acid diethanol amide, 0.5-1 part of calcium propionate, 7-10 parts of 0.1-0.15mol/l ammonium persulfate aqueous solution, 70-74 parts of aniline, 2-3 parts of 0.5-0.6mol/l hydrochloric acid, 1-2 parts of carbon nanotube, 140-160 parts of 80-90% formic acid, 40-50 parts of nylon 6, 0.6-1 part of octyl isothiazolone, 0.2-0.3 part of vinyl succinate, 0.1-0.2 part of triphenylphosphine, 1-2 parts of ascorbic acid, 0.3-0.4 part of zinc pyrithione and 0.2-0.5 part of dodecafluoroheptyl-propyl-trimethoxysilane. The gauze has the advantages that the antibacterial property of the finished product can be well improved due to addition of octyl isothiazolone, calcium propionate, triphenylphosphine, and the like.

Description

A kind of antibacterial soft magnetism door gauze and preparation method thereof

Technical field

The present invention relates to gauze technical field, particularly relate to a kind of antibacterial soft magnetism door gauze and preparation method thereof.

Background technology

Although Conductive Polyaniline Fibers has preferable electric conductivity, but the poor stability of polyaniline solutions, when solid is dense When degree is more than 6%, after the short time places, spinning liquid will produce gel, dense needed for solvent spinning technology shaped fibers Degree (> 10%) under, the formation of gel hinders the use of solution, the most difficult with its spinning, to solvent and spinning equipment requirement Height, and the physical and mechanical properties of the fiber prepared is poor, intensity is low, and fragility is big, spins it, weaves Deng Hou road processing phase Work as difficulty.In order to improve the physical and mechanical properties of fiber and improve its application, can be by polyaniline and general fibroblast copolymer Composite conducting fiber is prepared by co-blended spinning.

Electromagnetic radiation is ubiquitous, and thunder and lightning in nature, Sunspot Activities etc. all can produce electromagnetic radiation, and at electricity Today that scarabaeidae skill, the network communications technology develop rapidly, increasing electrical equipment, communication apparatus etc. incorporate the life of people Living, these equipment, while offering convenience to user, also bring a certain degree of harm.They operationally none examples Other places can be to emission certain frequency and the electromagnetic wave of certain energy, and in electronic technology, communication technology highly developed today, Electromagnetic radiation is flooded with each space, has become as the fourth-largest environment after water pollution, atmospheric pollution, sound pollution dirty Dye.The normal work of the equipment such as broadcast, TV, communication not only can be impacted by electromagnetic radiation, and can directly make human body Become injury, by heat effect, non-thermal effect, accumulative effect etc., to the nervous system of human body, cardiovascular system, hormonal system, Reproductive system etc. all can cause injury in various degree.For reducing hazards of electromagnetic radiation, on the one hand people take the initiative protection, i.e. Electromagnetic radiation source is shielded, reduces the leakage of electromagnetic wave outside circle as far as possible, alleviate the harm to environment；On the other hand then adopt Take passive protection, be primarily referred to as utilizing electromagnetic shielding protective material that specific region or specific crowd are taked shielding protection, reduce The electromagnetic wave electromagnetic radiation pollution to human body；

The present Research of electromagnetic radiation protective materiall be directed to develop " light, soft, thin, wide " new material, i.e. pursue lightweight, Flexibility, thin-walled, the architectural feature of wideband, and use gradient-structure to absorb and reflection electromagnetic wave, it is achieved high shield effectiveness.Conduction Fiber, as a kind of softness, the new material of light weight, is just playing the most important effect in electromagnetic shielding material field；Profit With electromagnetic wave shielding and the absorption property of conductive fiber, there are fabric and the fibre reinforced composites of electro-magnetic screen function in a large number It is manufactured.

Summary of the invention

The object of the invention is contemplated to make up the defect of prior art, it is provided that a kind of antibacterial soft magnetism door gauze and preparation side thereof Method.

The present invention is achieved by the following technical solutions:

A kind of antibacterial soft magnetism door gauze, it is made up of the raw material of following weight parts:

Fatty diglycollic amide 1-2, the ammonium persulfate aqueous solution 7-10 of calcium propionate 0.5-1,0.1-0.15mol/l, aniline 70- 74, the hydrochloric acid 2-3 of 0.5-0.6mol/l, the formic acid 140-160 of CNT 1-2,80-90%, nylon 6 40-50, the different thiophene of octyl group Oxazoline ketone 0.6-1, alkenyl succinic acid ester 0.2-0.3, triphenylphosphine 0.1-0.2, ascorbic acid 1-2, Zinc Pyrithione 0.3- 0.4, ten difluoro heptyl propyl trimethoxy silicane 0.2-0.5.

The preparation method of a kind of described antibacterial soft magnetism door gauze, comprises the following steps:

(1) taking volume ratio is the sulphuric acid of 3-4:1, salpeter solution mixing, stirs, and described sulfuric acid concentration is 90-95%, nitre Acid concentration is 60-70%；

(2) by above-mentioned Zinc Pyrithione, calcium propionate mixing, joining in the deionized water of compound weight 10-14 times, stirring is all Even, obtain saline solution；

(3) above-mentioned CNT is joined in above-mentioned mixed acid solution, at 50-60 DEG C ultrasonic 200-250 minute, centrifugal point From, lower sediment is joined in above-mentioned saline solution, insulated and stirred 20-30 minute at 60-70 DEG C, filter, precipitation is spent Ionized water washs 3-4 time, puts in the thermostatic drying chamber of 80-90 DEG C and dries, obtains purifying carbon nano-tube；

(4) take above-mentioned octylisothiazolinone, join in the dehydrated alcohol of its weight 4-10 times, stir, add triphen Base phosphine, is incubated 4-7 minute at 50-60 DEG C, obtains antibacterial alcohol liquid；

(5) above-mentioned purifying carbon nano-tube is joined in the formic acid of above-mentioned 80-90%, ultrasonic 60-70 minute, add nylon 6, base Succinate, magnetic agitation 3-5 minute, add above-mentioned antibacterial alcohol liquid, continue ultrasonic 30-40 minute, obtain spinning liquid, by spinning liquid Carry out spinning, obtain initial fiber；

(6) above-mentioned initial fiber being sent in plasma processor, be 70-75w at power, oxygen pressure is to locate under 40-45pa Manage 1-2 minute；

(7) initial fiber after above-mentioned plasma pretreatment is joined in above-mentioned aniline, soak 100-120 minute, in addition State the hydrochloric acid of the ammonium persulfate aqueous solution of 0.1-0.15mol/l, 0.5-0.6mol/l, be placed in the water bath with thermostatic control of 20-26 DEG C, stir Mixing reaction 120-130 minute, discharging, add and remain each raw material, 400-500 rev/min is stirred 2-3 minute, takes out fiber, washes 3- 4 times, room temperature dries, tidy, is placed on braider density rule little progress row weaving as requested, is placed in boiling after weaving Thermal finalization 1-2 hour in water, to obtain final product.

The invention have the advantage that

First CNT mixed acid solution is processed by the present invention, after carboxyl is introduced carbon nano tube surface, is re-dissolved in In formic acid solution, stable dispersion liquid can be obtained；Then the initial fiber obtained is carried out plasma treatment, due to plasma Corrasion make fiber surface coarse, and be introduced into segment polarity group and cause its surface to improve, thus contribute to aniline Monomer, in fiber surface absorption fastness and the raising of uniformity, advantageously forms continuous whole polyaniline film, and polyaniline is led Electric layer is well combined with fiber surface, and resistance reduces, and composite fibre electric conductivity increases, and the present invention is with hydrochloric acid for doping Acid, Ammonium persulfate. is oxidant, and when the fiber being adsorbed with aniline monomer immerses reactant liquor, the outermost aniline monomer of fiber is first First contact with reactant liquor and react generation polyaniline, and along with the carrying out of reaction, reactant liquor diffuses to whole aniline adsorption layer In, fully, polyaniline film thickness improves in reaction, improves with the absorption fastness of matrix fiber, and difficult drop-off during washing, thin film is complete Whole, it is possible to provide good conductive channel, the gauze of fibrage of the present invention has good electromagnetic radiation protection effect, greatly Reduce the electromagnetic wave electromagnetic radiation pollution to human body.The octylisothiazolinone of present invention addition, calcium propionate, triphenylphosphine Deng, the anti-microbial property of finished product can well be improved.

Detailed description of the invention

A kind of antibacterial soft magnetism door gauze, it is made up of the raw material of following weight parts:

Fatty diglycollic amide 1, calcium propionate 0.5, the ammonium persulfate aqueous solution 7 of 0.1mol/l, aniline 70, the salt of 0.5mol/l Acid 2, the formic acid 140 of CNT 1,80%, nylon 6 40, octylisothiazolinone 0.6, alkenyl succinic acid ester 0.2, triphenyl Phosphine 0.1, ascorbic acid 1, Zinc Pyrithione 0.3, ten difluoro heptyl propyl trimethoxy silicane 0.2.

The preparation method of a kind of described antibacterial soft magnetism door gauze, comprises the following steps:

(1) taking volume ratio is the sulphuric acid of 3:1, salpeter solution mixing, stirs, and described sulfuric acid concentration is 90%, concentration of nitric acid It is 60%；

(2) by above-mentioned Zinc Pyrithione, calcium propionate mixing, join in the deionized water of compound weight 10 times, stir, Obtain saline solution；

(3) above-mentioned CNT is joined in above-mentioned mixed acid solution, at 50 DEG C ultrasonic 200 minutes, centrifugation, will under Layer precipitation joins in above-mentioned saline solution, and insulated and stirred 20 minutes at 60 DEG C are filtered, and precipitate with deionized water are washed 3 times, Put in the thermostatic drying chamber of 80 DEG C and dry, obtain purifying carbon nano-tube；

(4) take above-mentioned octylisothiazolinone, join in the dehydrated alcohol of its weight 4 times, stir, add triphenyl Phosphine, is incubated 4 minutes at 50 DEG C, obtains antibacterial alcohol liquid；

(5) above-mentioned purifying carbon nano-tube is joined in the formic acid of above-mentioned 80%, ultrasonic 60 minutes, add nylon 6, base succinic acid Ester, magnetic agitation 3 minutes, add above-mentioned antibacterial alcohol liquid, continue ultrasonic 30 minutes, obtain spinning liquid, spinning liquid is carried out spinning, Initial fiber；

(6) above-mentioned initial fiber being sent in plasma processor, be 70w at power, oxygen pressure is to process 1 point under 40pa Clock；

(7) initial fiber after above-mentioned plasma pretreatment is joined in above-mentioned aniline, soak 100 minutes, add above-mentioned The ammonium persulfate aqueous solution of 0.1mol/l, the hydrochloric acid of 0.5mol/l, be placed in the water bath with thermostatic control of 20 DEG C, stirring reaction 120 minutes, Discharging, adds and remains each raw material, and 400 revs/min are stirred 2 minutes, take out fiber, wash 3 times, and room temperature dries, tidy, is placed in On braider as requested density rule little progress row weaving, be placed in thermal finalization 1 hour in boiling water after weaving, to obtain final product.

The performance test of monfil:

Electrical conductivity 1.3 × 10^-1-1.5×10^-1S/cm；

Fracture strength reaches 3.0-3.5cN/dtex；

Extension at break is 20-30%；

Fracture strength 130-150MPa.

Claims (2)

1. an antibacterial soft magnetism door gauze, it is characterised in that it is made up of the raw material of following weight parts:

Fatty diglycollic amide 1-2, the ammonium persulfate aqueous solution 7-10 of calcium propionate 0.5-1,0.1-0.15mol/l, aniline 70- 74, the hydrochloric acid 2-3 of 0.5-0.6mol/l, the formic acid 140-160 of CNT 1-2,80-90%, nylon 6 40-50, the different thiophene of octyl group Oxazoline ketone 0.6-1, alkenyl succinic acid ester 0.2-0.3, triphenylphosphine 0.1-0.2, ascorbic acid 1-2, Zinc Pyrithione 0.3- 0.4, ten difluoro heptyl propyl trimethoxy silicane 0.2-0.5.

2. the preparation method of an antibacterial soft magnetism door gauze as claimed in claim 1, it is characterised in that comprise the following steps:

(1) taking volume ratio is the sulphuric acid of 3-4:1, salpeter solution mixing, stirs, and described sulfuric acid concentration is 90-95%, nitre Acid concentration is 60-70%；

(2) by above-mentioned Zinc Pyrithione, calcium propionate mixing, joining in the deionized water of compound weight 10-14 times, stirring is all Even, obtain saline solution；

(3) above-mentioned CNT is joined in above-mentioned mixed acid solution, at 50-60 DEG C ultrasonic 200-250 minute, centrifugal point From, lower sediment is joined in above-mentioned saline solution, insulated and stirred 20-30 minute at 60-70 DEG C, filter, precipitation is spent Ionized water washs 3-4 time, puts in the thermostatic drying chamber of 80-90 DEG C and dries, obtains purifying carbon nano-tube；

(4) take above-mentioned octylisothiazolinone, join in the dehydrated alcohol of its weight 4-10 times, stir, add triphen Base phosphine, is incubated 4-7 minute at 50-60 DEG C, obtains antibacterial alcohol liquid；

(5) above-mentioned purifying carbon nano-tube is joined in the formic acid of above-mentioned 80-90%, ultrasonic 60-70 minute, add nylon 6, base Succinate, magnetic agitation 3-5 minute, add above-mentioned antibacterial alcohol liquid, continue ultrasonic 30-40 minute, obtain spinning liquid, by spinning liquid Carry out spinning, obtain initial fiber；

(6) above-mentioned initial fiber being sent in plasma processor, be 70-75w at power, oxygen pressure is to locate under 40-45pa Manage 1-2 minute；

(7) initial fiber after above-mentioned plasma pretreatment is joined in above-mentioned aniline, soak 100-120 minute, in addition State the hydrochloric acid of the ammonium persulfate aqueous solution of 0.1-0.15mol/l, 0.5-0.6mol/l, be placed in the water bath with thermostatic control of 20-26 DEG C, stir Mixing reaction 120-130 minute, discharging, add and remain each raw material, 400-500 rev/min is stirred 2-3 minute, takes out fiber, washes 3- 4 times, room temperature dries, tidy, is placed on braider density rule little progress row weaving as requested, is placed in boiling after weaving Thermal finalization 1-2 hour in water, to obtain final product.