CN107904973A - A kind of nonwoven fabric base intercalation material for loading graphene oxide polymer vesicle and preparation method thereof - Google Patents

Abstract

The invention discloses a kind of nonwoven fabric base intercalation material for loading graphene oxide polymer vesicle, it is to be collectively formed by non-woven fabrics as graphene oxide polymer vesicle on carrier of carrier and uniform appendix and binding agent, wherein the thickness of carrier is 20 35 μm, the surface density of carrier is between 15g/m2 50g/m2, porosity is 65 85%, the load capacity of graphene oxide polymer vesicle is 50 100g/m2, and binding agent quality is 1% the 10% of graphene oxide polymer vesicle.

Description

A kind of nonwoven fabric base intercalation material and its system for loading graphene oxide polymer vesicle Preparation Method

Technical field

The present invention relates to intercalation material technical field, more particularly to a kind of nonwoven for loading graphene oxide polymer vesicle Cloth base intercalation material and preparation method thereof.

Background technology

With the development of traffic transport industry, various high-tech intelligent equipments require increasingly ambient vibration control Height, traditional viscoelasticity damping material is since there are gradually cannot the problems such as mechanical strength is low, easy ageing failure, delamination Meet production requirement.Structural damping integrated composite can overcome traditional viscous-elastic material to carry out free damping processing or about Beam impedance bundary be subject to structure size, space, weight etc. factor limited, be not easily stripped layering, while have structure concurrently and hold The ability with damping vibration attenuation is carried, is a kind of product of the material structure function integration with broad prospect of application.Due to sticking bullet The elasticity modulus and glass transition temperature of property material are generally relatively low, and damping capacity is influenced be subject to temperature and frequency again, with tree The associativity of aliphatic radical body is also very poor, cause the mechanical property of integrated composite for preparing and the theoretical difference of damping ratio compared with Greatly, in order to improve these defects, researcher is more to improve the performance of integral material by developing various intercalation materials.

The content of the invention

A kind of the defects of present invention is in order to make up prior art, there is provided non-woven fabrics for loading graphene oxide polymer vesicle Base intercalation material and preparation method thereof.

The present invention is achieved by the following technical solutions：

A kind of nonwoven fabric base intercalation material for loading graphene oxide polymer vesicle, is to be used as carrier and uniform attached by non-woven fabrics The graphene oxide polymer vesicle and binding agent being loaded on carrier collectively form, and wherein the thickness of carrier is 20-35 μm, is carried The surface density of body is between 15g/m2-50g/m2, porosity 65-85%, and the load capacity of graphene oxide polymer vesicle is 50-100g/m2, binding agent quality are the 1%-10% of graphene oxide polymer vesicle.

The graphene oxide polymer vesicle is using amphiphilic block copolymer as shell, and graphene oxide is the vesica of core Structure, its particle diameter are 50-500nm.

The binding agent is emulsion acrylic resin, styrene-acrylic emulsion, pure-acrylic emulsion, polyaminoester emulsion, vinyl acetate-second One kind in alkene copolymer emulsion, range of solid content 25-45%.

The hydrophilic segment of the amphiphilic block copolymer is polyethylene glycol, poly- 2- methacrylic acids ethyoxyl phosphocholine In one kind, hydrophobic segment is polylactic acid, polycaprolactone, one kind in poly- 2- diisopropylaminos ethylmethyl acrylate.

A kind of preparation method of the nonwoven fabric base intercalation material of the load graphene oxide polymer vesicle, including with Lower step：

（1）Amphiphilic block copolymer is put into solvent, stirs to it and is completely dissolved, be made into amphiphilic block copolymer solution, so It is 0.1-5mg/mL graphene oxide water solutions that concentration is added dropwise into the solution under 500-800 revs/min of rotating speed afterwards, is added dropwise Time control continues to be stirred dialysis treatment 12-15h after 12-24h, water one is changed when 1 is small in 3-5h after being added dropwise It is secondary, centrifugation after dialysis, up to graphene oxide polymer vesicle after obtained sediment freeze-drying；

（2）Directly it is painted on carrier non-woven fabrics, applies after graphene oxide polymer vesicle and binding agent are uniformly mixed Up to the intercalation material after brush.

The step（1）In solvent for tetrahydrofuran, n,N-Dimethylformamide, n,N-dimethylacetamide, dichloro One or more of methane, chloroform, methyl acetate.

The amphiphilic block copolymer, solvent, the weight ratio of graphene oxide water solution are 1：（5-10）：（5-15）.

The present invention forms polymer vesicle using the self assembly performance of amphiphilic block polymer in the solution, and passes through hydrogen bond The payload of graphene oxide is realized, the polymer vesicle for loading graphene oxide is then supported on nothing by binding agent Intercalation material is made on woven fabric carrier, this intercalation material has great specific surface area and multiplicity tissue, existing poly- The cavity imitated vesicle structure of compound vesica has graphene oxide nanometer laminated structure again, greatly improves the structural damping of material Can, it is good with resin matrix associativity, has auxiliary raising effect to the mechanical property of composite material, effectively reduces interlayer Defect.

Embodiment

A kind of nonwoven fabric base intercalation material for loading graphene oxide polymer vesicle, is to be used as carrier and equal by non-woven fabrics Graphene oxide polymer vesicle and solid content of the even appendix on carrier collectively form for 25% emulsion acrylic resin, its The thickness of middle carrier is 20 μm, and the surface density of carrier is 15g/m2g, porosity 65%, graphene oxide polymer vesicle Load capacity is 50g/m2, and binding agent quality is the 1% of graphene oxide polymer vesicle.

Wherein graphene oxide polymer vesicle is using amphiphilic block copolymer as shell, and graphene oxide is the vesica knot of core Structure, its particle diameter are 50nm.

Wherein the hydrophilic segment of amphiphilic block copolymer is polyethylene glycol, and hydrophobic segment is polylactic acid.

The preparation method of the nonwoven fabric base intercalation material comprises the following steps：

（1）Amphiphilic block copolymer is put into n,N-Dimethylformamide, stirs to it and is completely dissolved, be made into amphiphilic block and be total to Copolymer solution, it is water-soluble for 0.1mg/mL graphene oxides to be then added dropwise concentration under 500 revs/min of rotating speed into the solution Liquid, time for adding control continue to be stirred dialysis treatment 12h after 12h, water are changed when 1 is small once in 3h after being added dropwise, Centrifugation after dialysis, up to graphene oxide polymer vesicle after obtained sediment freeze-drying；

（2）Carrier nonwoven is directly painted on after graphene oxide polymer vesicle and emulsion acrylic resin are uniformly mixed On cloth, up to the intercalation material after brushing.

Wherein amphiphilic block copolymer, n,N-Dimethylformamide, the weight ratio of graphene oxide water solution are 1：5：5.

Claims (7)

1. a kind of nonwoven fabric base intercalation material for loading graphene oxide polymer vesicle, it is characterised in that made by non-woven fabrics The graphene oxide polymer vesicle for being carrier and uniform appendix on carrier and binding agent collectively form, wherein the thickness of carrier Spend for 20-35 μm, the surface density of carrier is between 15g/m2-50g/m2, porosity 65-85%, graphite oxide alkene polymer The load capacity of vesica is 50-100g/m2, and binding agent quality is the 1%-10% of graphene oxide polymer vesicle.

2. a kind of nonwoven fabric base intercalation material for loading graphene oxide polymer vesicle as claimed in claim 1, its feature It is, the graphene oxide polymer vesicle is using amphiphilic block copolymer as shell, and graphene oxide is the vesica knot of core Structure, its particle diameter are 50-500nm.

3. a kind of nonwoven fabric base intercalation material for loading graphene oxide polymer vesicle as claimed in claim 1, its feature It is, the binding agent is emulsion acrylic resin, styrene-acrylic emulsion, pure-acrylic emulsion, polyaminoester emulsion, vinyl acetate-ethene One kind in copolymer emulsion, range of solid content 25-45%.

4. a kind of nonwoven fabric base intercalation material for loading graphene oxide polymer vesicle as claimed in claim 2, its feature It is, the hydrophilic segment of the amphiphilic block copolymer is polyethylene glycol, in poly- 2- methacrylic acids ethyoxyl phosphocholine One kind, hydrophobic segment is polylactic acid, polycaprolactone, one kind in poly- 2- diisopropylaminos ethylmethyl acrylate.

5. such as a kind of nonwoven fabric base intercalation material of load graphene oxide polymer vesicle as described in claim 1-4 is any Preparation method, it is characterised in that comprise the following steps：

（1）Amphiphilic block copolymer is put into solvent, stirs to it and is completely dissolved, be made into amphiphilic block copolymer solution, so It is 0.1-5mg/mL graphene oxide water solutions that concentration is added dropwise into the solution under 500-800 revs/min of rotating speed afterwards, is added dropwise Time control continues to be stirred dialysis treatment 12-15h after 12-24h, water one is changed when 1 is small in 3-5h after being added dropwise It is secondary, centrifugation after dialysis, up to graphene oxide polymer vesicle after obtained sediment freeze-drying；

（2）Directly it is painted on carrier non-woven fabrics, applies after graphene oxide polymer vesicle and binding agent are uniformly mixed Up to the intercalation material after brush.

A kind of 6. preparation side of nonwoven fabric base intercalation material for loading graphene oxide polymer vesicle as claimed in claim 5 Method, it is characterised in that the step（1）In solvent for tetrahydrofuran, n,N-Dimethylformamide, N, N- dimethylacetamides One or more of amine, dichloromethane, chloroform, methyl acetate.

A kind of 7. preparation side of nonwoven fabric base intercalation material for loading graphene oxide polymer vesicle as claimed in claim 5 Method, it is characterised in that the amphiphilic block copolymer, solvent, the weight ratio of graphene oxide water solution are 1：（5-10）： （5-15）.