CN106350897A

CN106350897A - Nano antisepsis fibrous material used for making shoes

Info

Publication number: CN106350897A
Application number: CN201610760581.8A
Authority: CN
Inventors: 郑明耀
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-08-30
Filing date: 2016-08-30
Publication date: 2017-01-25

Abstract

The invention discloses the nano antisepsis fibrous material used for making shoes, of which the ingredients are as follow: Polyolefin block copolymers 20 to 40 parts of, trans polyisoprene rubber 100 parts of, acetic acid solution 50 to 80 parts of, chitosan 15 to 29 parts of, penetrating agent 3 to 7 parts of, initiator 5 to 9 parts of, foaming agent 2 to 6 parts of, anti-aging agent 1 to 3 parts of. The invention has the features of good antisepsis ability, nice air permeability, stable structure, lightness, and good elasticity.

Description

A kind of antiseptic nano-fiber material for shoemaking

Technical field

The invention belongs to technical field of shoe making is and in particular to a kind of antiseptic nano-fiber material for shoemaking.

Background technology

The environment of human lives lives various microorganisms, daily used various textiles such as hair Towel, cotton-wadded quilt, underwear, toy etc. are all the suitable places of microbial growth procreation, huge to Health Impact, or even release Nauseating bad odor, affects environmental health；With developing rapidly of modern fiber technology, and growth in the living standard, people The function of fiber of application in daily life is put forward higher requirement, the proportion of tec fiber will increasingly increase, and resist Bacterial type textile by information industry, biomedical engineering, energy project, environment-friendly engineering, the physical protection of military and civilian and All be used widely in the fields such as health care, therefore, the textile that exploitation has anti-bacterial anti-foul function becomes World Textile circle One of focus of concern.

However, being found by literature search, existing anti-bacterial fibre there are still many defects: first, existing antibacterial is fine The diameter of dimension is thicker, generally more than 3 microns, limits fibrous material and is filtering ultrafine particle and containing virulent fines With the application of aerosol aspect, the particularly application in terms of clothing, medical science；Secondly, after existing anti-bacterial fibre mainly adopts Facture and precursor improved method, but the Antibiotic-odor Resistant Agent of the former dissolution may there is potential safety hazard to human body and durability is asked Topic, and easily lousiness or broken end in the latter, is difficult to obtain high-quality fabric feeling；Again, there is patent report (Chinese patent Application number 03131864.9) antibacterial accounts for the 2%～40% of gross weight in nanometer antibiotic ultra-fine fibrous material, valuable antibacterial in a large number The application of agent and the preparation method of electrostatic spinning, are also unfavorable for industrialized production；Finally, existing nanometer antibiotic ultra-fine is fine Dimension depends on import mostly, and domestic technology content is low, in the urgent need to improving the technology content in industrialization.Therefore, develop newly Type Preen nono antibiotic superfine fibre and its industrialization tool are of great significance, and the nanometer currently, with respect to shoemaking aspect resists Bacterium fibrous material is not also reported so far, and has more long-range meaning.

Content of the invention

It is an object of the invention to provide a kind of antiseptic nano-fiber material for shoemaking, it is good that the present invention has an antibiotic property, Good permeability, the features such as fibre structure firm lightweight, has good elasticity and pliability.

A kind of antiseptic nano-fiber material for shoemaking, its formula is as follows:

Polyolefin block copolymer 20-40 part, 100 parts of trans-polyisoprene rubber, acetic acid solution 50-80 part, shitosan 15- 29 parts, penetrating agent 3-7 part, initiator 5-9 part, foaming agent 2-6 part, age resistor 1-3 part.

Described trans-polyisoprene rubber includes: trans-polyisoprene (tpi) 40-100 part, polybutadiene (pb) 0- 30 parts, butadiene rubber (br) 0-30 part, two components or three amounts of components sums are 100 parts.

Described penetrating agent adopts fatty alcohol-polyoxyethylene ether or disecoctylmaleate sodium sulfonate.

Described initiator adopts azodiisobutyronitrile or 2,2'-Azobis(2,4-dimethylvaleronitrile).

Described foaming agent adopts normal heptane or pentane.

Described age resistor adopt rd, 4020na, one or more of 4020.

A kind of preparation method of the antiseptic nano-fiber material for shoemaking, its step is as follows:

Step 1, polyolefin block copolymer and trans-polyisoprene rubber is put into stirring mixing in banbury, obtains rubber Material；

Step 2, rubber material is dissolved in acetic acid solution, adds shitosan, penetrating agent and initiator to carry out banburying and react To antiseptic solution:

Step 3, antiseptic solution is added foaming agent and age resistor to be stirred uniformly, after obtain antibacterial and foam precursor liquid；

Step 4, antibacterial foaming precursor liquid is carried out electrostatic spinning, obtains antiseptic nano-fiber silk；

Step 5, antiseptic nano-fiber silk is put into autoclave and soaks, sealing reaction, antiseptic nano-fiber after being foamed Material；

Step 6, antiseptic nano-fiber material after foaming is carried out, after soaking and washing, obtaining shoemaking antiseptic nano-fiber material.

Mixing speed in described step 1 is 60-80rpm, and reaction temperature is 60-80 DEG C, and the response time is 30-50min.

Reaction temperature in described step 2 is 80-90 DEG C, and the described response time is 22-45min.

Mixing speed in described step 3 is 400-800r/min, and described mixing time is 1-4h.

Reaction temperature in described step 5 is 80-120 DEG C, and pressure is 1-3mpa, and the response time is 30-60min.

Cleaning in described step 6 includes being cleaned by ultrasonic using ethanol water, then uses distilled water secondary cleaning, Naturally dry.

Compared with prior art, the method have the advantages that

1st, the features such as the present invention there is antibiotic property good, good permeability, fibre structure firm lightweight, have good elasticity with pliable and tough Property.

2nd, the present invention adopts azodiisobutyronitrile and 2,2'-Azobis(2,4-dimethylvaleronitrile) as initiator, not only has foaming and stablizes, effect Rate is high, and no side reaction, conversion rate of products height, catabolite is harmless.

3rd, preparation method green non-pollution of the present invention, the no other derivant of course of reaction generates, and step is simple, and this Bright is workable, and solvent is recyclable, and utilization rate is high, no industrial pollution generation and production cost is relatively low, and safety is relatively High.

Specific embodiment

With reference to embodiment, the present invention is described further:

Embodiment 1

20 parts of polyolefin block copolymer, 100 parts of trans-polyisoprene rubber, 50 parts of acetic acid solution, 15 parts of shitosan, infiltration 3 parts of agent, 5 parts of initiator, 2 parts of foaming agent, 1 part of age resistor.

Described trans-polyisoprene rubber includes: 40 parts of trans-polyisoprene (tpi), 30 parts of polybutadiene (pb), 30 parts of butadiene rubber (br), three amounts of components sums are 100 parts.

Described penetrating agent adopts fatty alcohol-polyoxyethylene ether.

Described initiator adopts azodiisobutyronitrile.

Described foaming agent adopts normal heptane.

Described age resistor adopts rd.

Mixing speed in described step 1 is 60rpm, and reaction temperature is 60 DEG C, and the response time is 30min.

Reaction temperature in described step 2 is 80 DEG C, and the described response time is 22min.

Mixing speed in described step 3 is 400r/min, and described mixing time is 1h.

Reaction temperature in described step 5 is 80 DEG C, and pressure is 1mpa, and the response time is 30min.

Embodiment 2

40 parts of polyolefin block copolymer, 100 parts of trans-polyisoprene rubber, 80 parts of acetic acid solution, 29 parts of shitosan, infiltration 7 parts of agent, 9 parts of initiator, 6 parts of foaming agent, 3 parts of age resistor.

Described trans-polyisoprene rubber includes: 70 parts of trans-polyisoprene (tpi), 15 parts of polybutadiene (pb), 15 parts of butadiene rubber (br), three amounts of components sums are 100 parts.

Described penetrating agent adopts disecoctylmaleate sodium sulfonate.

Described initiator adopts 2,2'-Azobis(2,4-dimethylvaleronitrile).

Described foaming agent adopts pentane.

Described age resistor adopts 4020na.

Mixing speed in described step 1 is 80rpm, and reaction temperature is 80 DEG C, and the response time is 50min.

Reaction temperature in described step 2 is 90 DEG C, and the described response time is 45min.

Mixing speed in described step 3 is 800r/min, and described mixing time is 4h.

Reaction temperature in described step 5 is 120 DEG C, and pressure is 3mpa, and the response time is 60min.

Embodiment 3

30 parts of polyolefin block copolymer, 100 parts of trans-polyisoprene rubber, 60 parts of acetic acid solution, 21 parts of shitosan, infiltration 5 parts of agent, 7 parts of initiator, 5 parts of foaming agent, 2 parts of age resistor.

Described trans-polyisoprene rubber includes: 98 parts of trans-polyisoprene (tpi), and 1 part of polybutadiene (pb) is suitable 1 part of buna (br), three amounts of components sums are 100 parts.

Described penetrating agent adopts fatty alcohol-polyoxyethylene ether.

Described initiator adopts azodiisobutyronitrile.

Described foaming agent adopts normal heptane.

Described age resistor adopts 4020.

Mixing speed in described step 1 is 70rpm, and reaction temperature is 70 DEG C, and the response time is 40min.

Reaction temperature in described step 2 is 85 DEG C, and the described response time is 35min.

Mixing speed in described step 3 is 600r/min, and described mixing time is 3h.

Reaction temperature in described step 5 is 98 DEG C, and pressure is 2mpa, and the response time is 40min.

The foregoing is only one embodiment of the invention, be not intended to limit the present invention, all employing equivalents or equivalent transformation The technical scheme that obtained of mode, all fall within protection scope of the present invention.

Claims

1. a kind of antiseptic nano-fiber material for shoemaking is it is characterised in that its formula is as follows:

2. a kind of antiseptic nano-fiber material for shoemaking according to claims 1 is it is characterised in that described trans Polyisoprene rubber includes: trans-polyisoprene (tpi) 40-100 part, polybutadiene (pb) 0-30 part, butadiene rubber (br) 0-30 part, two components or three amounts of components sums are 100 parts.

3. a kind of antiseptic nano-fiber material for shoemaking according to claims 1 is it is characterised in that described infiltration Agent adopts fatty alcohol-polyoxyethylene ether or disecoctylmaleate sodium sulfonate.

4. a kind of antiseptic nano-fiber material for shoemaking according to claims 1 is it is characterised in that described initiation Agent adopts azodiisobutyronitrile or 2,2'-Azobis(2,4-dimethylvaleronitrile).

5. a kind of antiseptic nano-fiber material for shoemaking according to claims 1 is it is characterised in that described foaming Agent adopts normal heptane or pentane.

6. a kind of antiseptic nano-fiber material for shoemaking according to claims 1 is it is characterised in that described prevent always Agent adopt rd, 4020na, one or more of 4020.

7. a kind of antiseptic nano-fiber material for shoemaking according to claims 1 is it is characterised in that nano-antibacterial The preparation method of fibrous material, its step is as follows:

8. a kind of antiseptic nano-fiber material for shoemaking according to claims 1 is it is characterised in that described step Mixing speed in 1 is 60-80rpm, and reaction temperature is 60-80 DEG C, and the response time is 30-50min；Anti- in described step 2 Temperature is answered to be 80-90 DEG C, the described response time is 22-45min；Mixing speed in described step 3 is 400-800r/min, institute Stating mixing time is 1-4h.

9. a kind of antiseptic nano-fiber material for shoemaking according to claims 1 is it is characterised in that described step Reaction temperature in 5 is 80-120 DEG C, and pressure is 1-3mpa, and the response time is 30-60min.

10. a kind of antiseptic nano-fiber material for shoemaking according to claims 1 is it is characterised in that described step Cleaning in rapid 6 includes being cleaned by ultrasonic using ethanol water, then uses distilled water secondary cleaning, naturally dries.