CN109957155A - A kind of preparation method of the modified polyisoprene surgical operation gloves of graphene oxide - Google Patents

Abstract

The present invention relates to a kind of preparation methods of the modified polyisoprene surgical operation gloves of graphene oxide.Graphite oxide (GO) aqueous solution is prepared first, PVP is added in graphene oxide water solution, stirring, ultrasound, obtain PVP-GO dispersion liquid, PVP-GO dispersion liquid is added in polyisoprene latex, stirs, continuously adds surfactant, zinc oxide, sulphur, promotor, potassium hydroxide, deionized water, it is uniformly mixing to obtain latex impregnation liquid, immersing solidification liquid, drying, immerse latex impregnation liquid, vulcanization, demould fingerprint is to obtain final products.Gloves prepared by the present invention significantly improve the mechanical performance of gloves, and the bactericidal function of simultaneous oxidation graphene improves gloves period of storage, reduce application risk.

Description

A kind of preparation method of the modified polyisoprene surgical operation gloves of graphene oxide

Technical field

The present invention relates to the preparation method field of surgical operation gloves, in particular to a kind of modified poly- isoamyl of graphene oxide The preparation method of diene surgical operation gloves.

Background technique

Most current surgical gloves are still made of Heveatex.Because natural rubber contains albumen, small part User (especially white race crowd) skin will generate the allergic reactions such as erythema, itch, and have serious sense of discomfort.In order to drop The risk of low patient and medical worker's allergy, someone develop polyisoprene (IR) surgical operation gloves.Polyisoprene hand Set haves the defects that storage process physical property is lower, to solve this problem, using the modified polyisoprene of graphene oxide.

Graphene oxide (GO) is a kind of two-dimensional slice material with monatomic thickness.Graphene oxide has high bullet The excellent properties such as property modulus, thermal conductivity and electron mobility, light transmittance, have been widely used for preparing high performance material.Patent CN107022124A once reported the preparation method of graphene and graphene oxide modified natural rubber gloves, butyronitrile gloves etc.. However it is had not been reported with the modified polyisoprene surgical operation gloves of graphene oxide.Polyvinylpyrrolidone (PVP) is right Graphene oxide is dispersed with stabilization, facilitates modification of the graphene oxide to polyisoprene.

Applicants have found that the mechanical performance of gloves can be significantly improved after the modified polyisoprene of graphene oxide, Simultaneous oxidation graphene can bring bactericidal function, improve gloves period of storage, reduce application risk.

Summary of the invention

It is an object of the invention to overcome the deficiencies in the prior art to improve poly- isoamyl two using the characteristic of graphene oxide Mechanical property, imparting gloves bacteriostasis antibiosis function of alkene gloves etc..

To solve the above problems, proposing a kind of side with the modified polyisoprene surgical operation gloves of redox graphene Method, specifically:

(1) graphene oxide (GO) aqueous solution is prepared；

(2) PVP is added in graphene oxide water solution, stirring, ultrasound obtain PVP-GO dispersion liquid；

(3) PVP-GO dispersion liquid is added in polyisoprene latex, is stirred, continuously add surfactant, oxidation Zinc, sulphur, promotor, potassium hydroxide, deionized water are uniformly mixing to obtain polyisoprene latex maceration extract；

(4) immersing solidification liquid, drying, immerse polyisoprene latex maceration extract, vulcanization, demould fingerprint is to obtain finally Product.

Wherein surfactant be neopelex or lauryl sodium sulfate, promotor ZDBC, ZDEC or One of DPG or a variety of is used in combination.

Further, in PVP-GO solution, graphene oxide solution concentration is 0.5-3g/L, the matter of graphene oxide and PVP Amount is than being 1:1-5.

Above-mentioned steps take 1L polyisoprene latex in (3), and the PVP-GO solution of 1L is added, stirring, then plus 0.5-1 parts Sulphur, 0.8-1.2 part zinc oxide, 0.1-0.2 parts ZDBC, 0.1-0.2 parts ZDEC, 0.1-0.2 parts of DPG, 1 part of detergent alkylate sulphur Sour sodium and 0.2 part of potassium hydroxide, 300ml deionized water

Be immersed in solidification liquid after fingerprint is heated to 110 DEG C in above-mentioned steps (4), the solidification liquid be calcium nitrate type+ Precipitated calcium carbonate configuration.

Wherein drying is to dry fingerprint 3-5 minutes under the conditions of 70-120 DEG C.

The vulcanization vulcanizes 25-40 minutes at 150 DEG C to touch hand.

The gloves of above method preparation are also claimed in the present invention, and tensile strength has bactericidal in 24Mpa or more Function.

The purposes of the gloves of above method preparation is also claimed in the present invention, is used for surgical operation gloves.

Polyisoprene surgical operation gloves prepared by the present invention, good mechanical property have good bacteria resistance.

Specific embodiment

This part will disclose specific embodiment of the invention.The embodiment disclosed herein is example of the invention, can be with It embodies in different forms.Therefore, the disclosed detailed content including specific structure and function details is not intended to limit the present invention, and It is merely possible to the basis of claim.The application is come in the whole text with the meaning of permission using word " can with " rather than compulsory meaning Justice.Similarly, unless otherwise indicated, word "include", "comprise" and " group becomes " expression " including but not limited to ".Word " one " or "one" expression "at least one", word " multiple " indicate more than one.When using abbreviation or technical term, These terms indicate known in the technical field and are generally accepted meaning.

Embodiment 1:

1) graphene oxide solution that 1L concentration is 1g/L is prepared, 3g PVP is added, ultrasonic disperse 2 hours, obtains PVP- GO solution.

2) 1L polyisoprene latex is taken, the PVP-GO solution of 1L is added, is stirred, then plus 0.5 part of sulphur, 0.8 part of oxidation Zinc, 0.1 part of ZDBC, 0.1 part of ZDEC, 0.2 part of DPG, 1 part of neopelex and 0.2 part of potassium hydroxide, 300ml go from Sub- water stirs 6 hours, obtains Dipped latex.

3) under the conditions of 25-30 DEG C, stirring is placed 48 hours.

4) fingerprint is heated to being immersed in after 110 DEG C in calcium nitrate type+precipitated calcium carbonate configuration solidification liquid, is stopped 10 seconds After take out, fingerprint is dried 3 minutes under the conditions of 100 DEG C.

5) fingerprint of drying is cooled to 70 DEG C, be immersed in the latex cured, taken out after stopping 10 seconds, hand is touched Vulcanize 40 minutes at 150 DEG C.

6) gloves vulcanizated are removed from mold by surface treatment.

7) it is detected according to LST EN 455-4-2009.As a result it see the table below

Embodiment 2:

1) graphene oxide solution that 1L concentration is 3g/L is prepared, 3g PVP is added, ultrasonic disperse 2 hours, obtains PVP- GO solution.

2) 1L polyisoprene latex is taken, the PVP-GO solution of 1L is added, is stirred, then plus 0.5 part of sulphur, 0.8 part of oxidation Zinc, 0.1 part of ZDBC, 0.1 part of ZDEC, 0.2 part of DPG, 1 part of neopelex and 0.2 part of potassium hydroxide, 300ml go from Sub- water stirs 6 hours, obtains Dipped latex,

3) under the conditions of 25-30 DEG C, stirring is placed 48 hours.

4) fingerprint is heated to being immersed in after 110 DEG C in calcium nitrate type+precipitated calcium carbonate configuration solidification liquid, is stopped 10 seconds After take out, fingerprint is dried 3 minutes under the conditions of 100 DEG C.

5) fingerprint of drying is cooled to 70 DEG C, be immersed in the latex cured, taken out after stopping 10 seconds, hand is touched Vulcanize 40 minutes at 150 DEG C.

6) gloves vulcanizated are removed from mold by surface treatment.

7) it is detected according to LST EN 455-4-2009.As a result it see the table below

Embodiment 3:

1) graphene oxide solution that 1L concentration is 0.5g/L is prepared, 2g PVP is added, ultrasonic disperse 2 hours, obtains PVP-GO solution.

2) 1L polyisoprene latex is taken, the PVP-GO solution of 1L is added, is stirred, then plus 0.5 part of sulphur, 0.8 part of oxidation Zinc, 0.1 part of ZDBC, 0.1 part of ZDEC, 0.2 part of DPG, 1 part of neopelex and 0.2 part of potassium hydroxide, 300ml go from Sub- water stirs 6 hours, obtains Dipped latex,

3) under the conditions of 25-30 DEG C, stirring is placed 48 hours.

4) fingerprint is heated to being immersed in after 110 DEG C in calcium nitrate type+precipitated calcium carbonate configuration solidification liquid, is stopped 10 seconds After take out, fingerprint is dried 3 minutes under the conditions of 100 DEG C.

5) fingerprint of drying is cooled to 70 DEG C, be immersed in the latex cured, taken out after stopping 10 seconds, hand is touched Vulcanize 40 minutes at 150 DEG C.

6) gloves vulcanizated are removed from mold by surface treatment.

7) it is detected according to LST EN 455-4-2009.As a result it see the table below

Comparative example

1) 1L polyisoprene latex is taken, stirs, adds 0.5 part of sulphur, 0.8 part of zinc oxide, 0.1 part of ZDBC, 0.1 part ZDEC, 0.2 part of DPG, 1 part of neopelex and 0.2 part of potassium hydroxide, 300ml deionized water are stirred 6 hours, are obtained Dipped latex, under the conditions of 25-30 DEG C, stirring is placed 48 hours.

2) fingerprint is heated to being immersed in after 110 DEG C in calcium nitrate type+precipitated calcium carbonate configuration solidification liquid, is stopped 10 seconds After take out, fingerprint is dried 3 minutes under the conditions of 100 DEG C.

3) fingerprint of drying is cooled to 70 DEG C, be immersed in the latex cured, taken out after stopping 10 seconds, hand is touched Vulcanize 40 minutes at 150 DEG C.

4) gloves vulcanizated are removed from mold by surface treatment.

5) it is detected according to LST EN 455-4-2009.As a result it see the table below

Mechanical performance detects table

Antibacterial bacteriostatic detection

	Escherichia coli	Staphylococcus aureus
			Embodiment 1	93%	94%
Embodiment 2	98%	98%
			Embodiment 3	92%	91%
Comparative example	5%	7%

It should be appreciated that the preferred embodiment of the present embodiment is not to limit the invention to disclosed specific form, Present invention encompasses all modifications fallen into the range of specification describes and the attached claims limit, equivalent And alternative.

Claims (10)

1. a kind of method with the modified polyisoprene gloves of redox graphene, comprises the following steps:

(1) graphene oxide (GO) aqueous solution is prepared；

(2) PVP is added in graphene oxide water solution, stirring, ultrasound obtain PVP-GO dispersion liquid；

(3) PVP-GO dispersion liquid is added in polyisoprene latex, stirs, continuously adds surfactant, zinc oxide, sulphur Sulphur, promotor, potassium hydroxide, deionized water are uniformly mixing to obtain polyisoprene latex maceration extract；

(4) immersing solidification liquid, drying, immerse polyisoprene latex maceration extract, vulcanization, demould fingerprint is finally to be produced Product.

2. according to the method described in claim 1, it is characterized by: surfactant is neopelex or dodecane Base sodium sulphate, one of promotor ZDBC, ZDEC or DPG or a variety of are used in combination.

3. according to the method described in claim 1, it is characterized by: in PVP-GO solution, graphene oxide solution concentration is The mass ratio of 0.5-3g/L, graphene oxide and PVP are 1:1-5.

4. according to the method described in claim 1, being added it is characterized by: take 1L polyisoprene latex in above-mentioned steps (3) The PVP-GO solution of 1L, stirring, then plus 0.5-1 parts of sulphur, 0.8-1.2 parts of zinc oxide, 0.1-0.2 parts ZDBC, 0.1-0.2 parts ZDEC, 0.1-0.2 parts of DPG, 1 part of neopelex and 0.2 part of potassium hydroxide, 300ml deionized water.

5. according to the method described in claim 1, it is characterized by: being immersed after fingerprint is heated to 110 DEG C in above-mentioned steps (4) Into solidification liquid.

6. according to the method described in claim 1, it is characterized by: drying is that fingerprint is dried 3-5 under the conditions of 70-120 DEG C Minute.

7. according to the method described in claim 1, it is characterized by: vulcanization vulcanizes 25-40 minutes at 150 DEG C to touch hand.

8. a kind of gloves of any one of claim 1-7 the method preparation.

9. gloves according to claim 8, it is characterised in that: the gloves are polyisoprene gloves.

10. the purposes of gloves described in claim 8 or 9, it is characterised in that: be used for surgical operation gloves.