CN109679384A - A kind of ceramic base antimicrobial coating material and preparation method thereof - Google Patents

A kind of ceramic base antimicrobial coating material and preparation method thereof Download PDF

Info

Publication number
CN109679384A
CN109679384A CN201811635709.3A CN201811635709A CN109679384A CN 109679384 A CN109679384 A CN 109679384A CN 201811635709 A CN201811635709 A CN 201811635709A CN 109679384 A CN109679384 A CN 109679384A
Authority
CN
China
Prior art keywords
powder
nano
ceramic base
organic reagent
antimicrobial coating
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN201811635709.3A
Other languages
Chinese (zh)
Inventor
王立惠
夏村村
卢宗柳
林峰
秦海青
刘文平
张建伟
张振军
卢安军
雷晓旭
蒙光海
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
China Nonferrous Metal Guilin Geology and Mining Co Ltd
Original Assignee
China Nonferrous Metal Guilin Geology and Mining Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by China Nonferrous Metal Guilin Geology and Mining Co Ltd filed Critical China Nonferrous Metal Guilin Geology and Mining Co Ltd
Priority to CN201811635709.3A priority Critical patent/CN109679384A/en
Publication of CN109679384A publication Critical patent/CN109679384A/en
Pending legal-status Critical Current

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C09DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
    • C09DCOATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
    • C09D1/00Coating compositions, e.g. paints, varnishes or lacquers, based on inorganic substances
    • CCHEMISTRY; METALLURGY
    • C09DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
    • C09DCOATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
    • C09D5/00Coating compositions, e.g. paints, varnishes or lacquers, characterised by their physical nature or the effects produced; Filling pastes
    • C09D5/14Paints containing biocides, e.g. fungicides, insecticides or pesticides

Abstract

The invention discloses a kind of ceramic base antimicrobial coating materials and preparation method thereof, including porous aluminas and the silver and the nano titania anti-biotic material that are attached in porous aluminas, it is made of the following components: containing Silver nano-powder, nano-titanium dioxide, ultra-fine porous aluminas and other nano metal powders, the effective content of percentages silver is 12.0-25.0wt%, the effective content of titanium dioxide is 18.0-32.0wt%, the effective content of ultra-fine porous aluminas is 28.0-58.0wt%, other metal powders 0-30.0wt%.

Description

A kind of ceramic base antimicrobial coating material and preparation method thereof
Technical field
The invention belongs to e-coat field of material technology, are related to a kind of antimicrobial coating material, and in particular to a kind of ceramics Base antimicrobial coating material and preparation method thereof.
Background technique
In the real life of people, skin can inevitably touch the microorganisms such as various bacteriums, fungi, These microorganisms can breed rapidly under suitable external condition, and be spread the disease by modes such as contacts, influence the body of people Body health.Especially skin is after wound, burn or ulcer, it is easier to cause to infect, or slow down the healing of wound.People are frequent The object touched, not only object own face can adsorb the microorganisms such as bacterium, and cross-contact will also result in spread of germs, If coating anti-biotic material in body surface, makes body surface have the function of inhibiting fungus grown, safeguard safe life cycle Border guarantees human health.
In order to improve people in life to the defence capability of mushroom, with human skin often in contact with body surface, The anti-biotic material of one layer of discharge of bacteria bactericidal effect is coated, infected probability can be reduced, and effectively prevent spread of germs.
Dressing containing metal fungicide, as disclosed in patent CN200410090621.X " a kind of containing Ag-Zn composition Wound dressing ", can be effectively antibacterial to wound and promotes the healing of wound.
Dressing containing the metals fungicide such as silver-colored zinc, patent 2008802100.5 disclose a kind of polyurethane foam dressing Preparation method, but drug is easy easily to occur being unevenly distributed in the foam or drug is directly wrapped up by foam, hinders significantly The performance of efficacy of drugs.
" a kind of copper nano composite antibacterial coating and preparation method thereof " disclosed in patent CN108435515A uses electrostatic Technique is applied by copper nano composite antibacterial powder spray in metal surface, to form copper nano composite antibacterial coating in metal surface, But the antimicrobial coating wearability that this method is formed is poor.
Summary of the invention
To overcome the shortcomings of existing technologies, the purpose of the present invention is to provide a kind of ceramic base antimicrobial coating material and its systems Preparation Method is that a kind of antimicrobial component is more evenly distributed, and timeliness is longer, and can including ceramic material etc. hard surfaces spray It applies, can also apply to the ceramic base antimicrobial coating material on flexible article surface.
To achieve the above object, the present invention adopts the following technical scheme:
A kind of ceramic base antimicrobial coating material, including porous aluminas and the silver being attached in porous aluminas and titanium dioxide Titanium nano anti-biotic material, is made of the following components:
Containing Silver nano-powder, nano-titanium dioxide, ultra-fine porous aluminas and other nano metal powders, percentages silver Effective content be 12.0-25.0wt%, the effective content of titanium dioxide is 18.0-32.0wt%, ultra-fine porous aluminas Effective content is 28.0-58.0wt%, other metal powders 0-30.0wt%;
It is described to contain Silver nano-powder, it is nano silver, nanometer Ag2O and nanometer Ag2O2One or more of, when mixing For arbitrary proportion;
The raw material of the nano-titanium dioxide, for Ti (OH)4、TiO2With TiO (OH)2One or more of, mixing When be arbitrary proportion;
The ultra-fine porous aluminas is micron-sized ultra-fine porous aluminas, and partial size is in 0.5-5.0 μ m;
Other described nano metal powders are one of Nanometer Copper powder, nanometer aluminium powder, nano zinc powder, nano titanium powder Or it is two or more, it is arbitrary proportion when mixing;
The composition of organic reagent 1: 60.0-90.0wt% dehydrated alcohol, 0.5-8.0wt% silicon surface active agent and 8.0- 35.0wt% dioxanes;
The weight ratio of organic reagent 1 and the above solid powder is 1:1-2:1;
The composition of organic reagent 2: 10.0-38.0wt% ethyl cellulose, 30.0-68.0wt% terpinol and 8.0- 35.0wt% dehydrated alcohol;
The weight ratio of organic reagent 2 and (the above solid powder of organic reagent 1+) is 1:3-1:10.
Ceramic base antimicrobial coating material of the present invention can be prepared using following three kinds of methods.
Prepare the method one of above-mentioned ceramic base antimicrobial coating material, comprising the following steps:
1) it prepares nano silver: nano-silver powder being prepared using rf induction plasma, the nano-silver powder partial size of preparation is in 5- 50nm, preferably 5-15 nanometer;
2) it prepares nanometer titanium dioxide titanium valve: utilizing Ti (OH)4、TiO2With TiO (OH)2One or more of do original Material prepares nanometer titanium dioxide titanium valve using rf induction plasma, and the nano-titanium dioxide powder diameter of preparation is excellent in 5-50nm Select 5-15 nanometers;
3) preparation of ceramic base antimicrobial coating material:
1. weighing solid powder in proportion: the nanometer titanium dioxide of the nano silver of 12.0-25.0wt%, 18.0-32.0wt% Titanium valve, the ultra-fine porous aluminas of 28.0-58.0wt%, other metal powders of 0-30.0wt%;
2. weigh in proportion organic reagent 1:60.0-90.0wt% dehydrated alcohol, 0.5-8.0wt% silicon surface active agent and 8.0-35.0wt% dioxanes;
3. the weight ratio of organic reagent 1 and solid powder is 1:1-2:1;
The nano silver weighed up and nanometer titanium dioxide titanium valve are poured into after 4. organic reagent 1 is mixed and stirred for uniformly, It is uniformly dispersed under 300-1000 revs/min of revolving speed, then um porous aluminium oxide is added again, high-speed stirred 3-6 is small immediately When, then separated with tube centrifuge, the mixed-powder for being sunken to tube wall is dried in vacuum drying oven at 35-45 DEG C, crosses 200 mesh Sieve is to get ceramic base antimicrobial coating material mixed-powder;
5. weigh in proportion organic reagent 2:10.0-38.0wt% ethyl cellulose, 30.0-68.0wt% terpinol and 8.0-35.0wt% dehydrated alcohol;
6. the weight ratio of organic reagent 2 and ceramic base antimicrobial coating material mixed-powder is 1:3-1:10;
7. organic reagent 2 is mixed and after stirring and dissolving is complete under the conditions of 45 DEG C, the ceramic base antibacterial that will weigh up Coating material mixed-powder pours into, and is uniformly dispersed under 300-1000 revs/min of revolving speed, then be sprayed with spray dryer It is dry, 200 meshes are crossed to get ceramic base antimicrobial coating material.
Prepare the method two of above-mentioned ceramic base antimicrobial coating material, comprising the following steps:
1) nanometer Ag is screened2O: by nanometer Ag2O particle pours into ethanol solution, with 5-10 points of high speed disperser dispersion Clock, then separated 2-3 times with high speed tube centrifuge, preferably 5-15 nanometers of particle;
2) it prepares nanometer titanium dioxide titanium valve: utilizing Ti (OH)4、TiO2With TiO (OH)2One or more of do original Material prepares nanometer titanium dioxide titanium valve using rf induction plasma, and the nano-titanium dioxide powder diameter of preparation is excellent in 5-50nm Select 5-15 nanometers;
3) preparation of ceramic base antimicrobial coating material:
1. weighing solid powder in proportion: the nanometer Ag of 12.0-25.0wt%2The nano-silica of O, 18.0-32.0wt% Change titanium valve, the ultra-fine porous aluminas of 28.0-58.0wt%, other metal powders of 0-30.0wt%;
2. weigh in proportion organic reagent 1:60.0-90.0wt% dehydrated alcohol, 0.5-8.0wt% silicon surface active agent and 8.0-35.0wt% dioxanes;
3. the weight ratio of organic reagent 1 and solid powder is 1:1-2:1;
The nano silver weighed up and nanometer titanium dioxide titanium valve are poured into after 4. organic reagent 1 is mixed and stirred for uniformly, It is uniformly dispersed under 300-1000 revs/min of revolving speed, then um porous aluminium oxide is added again, high-speed stirred 3-6 is small immediately When, then separated with tube centrifuge, the mixed-powder for being sunken to tube wall is dried in vacuum drying oven at 35-45 DEG C, crosses 200 mesh Sieve is to get ceramic base antimicrobial coating material mixed-powder;
5. weigh in proportion organic reagent 2:10.0-38.0wt% ethyl cellulose, 30.0-68.0wt% terpinol and 8.0-35.0wt% dehydrated alcohol;
6. the weight ratio of organic reagent 2 and ceramic base antimicrobial coating material mixed-powder is 1:3-1:10;
7. organic reagent 2 is mixed and after stirring and dissolving is complete under the conditions of 45 DEG C, the ceramic base antibacterial that will weigh up Coating material mixed-powder pours into, and is uniformly dispersed under 300-1000 revs/min of revolving speed, then be sprayed with spray dryer It is dry, 200 meshes are crossed to get ceramic base antimicrobial coating material.
Prepare the method three of above-mentioned ceramic base antimicrobial coating material, comprising the following steps:
1) nanometer Ag is screened2O2: by nanometer Ag2O2Particle pours into ethanol solution, disperses 5-10 with high speed disperser Minute, then separated 2-3 times with high speed tube centrifuge, preferably 5-15 nanometers of particle;
2) it prepares nanometer titanium dioxide titanium valve: utilizing Ti (OH)4、TiO2With TiO (OH)2One or more of do original Material prepares nanometer titanium dioxide titanium valve using rf induction plasma, and the nano-titanium dioxide powder diameter of preparation is excellent in 5-50nm Select 5-15 nanometers;
3) preparation of ceramic base antimicrobial coating material:
1. weighing solid powder in proportion: the nanometer Ag of 12.0-25.0wt%2O2, the nano-silica of 18.0-32.0wt% Change titanium valve, the ultra-fine porous aluminas of 28.0-58.0wt%, other metal powders of 0-30.0wt%;
2. weigh in proportion organic reagent 1:60.0-90.0wt% dehydrated alcohol, 0.5-8.0wt% silicon surface active agent and 8.0-35.0wt% dioxanes;
3. the weight ratio of organic reagent 1 and solid powder is 1:1-2:1;
The nano silver weighed up and nanometer titanium dioxide titanium valve are poured into after 4. organic reagent 1 is mixed and stirred for uniformly, It is uniformly dispersed under 300-1000 revs/min of revolving speed, then um porous aluminium oxide is added again, high-speed stirred 3-6 is small immediately When, then separated with tube centrifuge, the mixed-powder for being sunken to tube wall is dried in vacuum drying oven at 35-45 DEG C, crosses 200 mesh Sieve is to get ceramic base antimicrobial coating material mixed-powder;
5. weigh in proportion organic reagent 2:10.0-38.0wt% ethyl cellulose, 30.0-68.0wt% terpinol and 8.0-35.0wt% dehydrated alcohol;
6. the weight ratio of organic reagent 2 and ceramic base antimicrobial coating material mixed-powder is 1:3-1:10;
7. organic reagent 2 is mixed and after stirring and dissolving is complete under the conditions of 45 DEG C, the ceramic base antibacterial that will weigh up Coating material mixed-powder pours into, and is uniformly dispersed under 300-1000 revs/min of revolving speed, then be sprayed with spray dryer It is dry, 200 meshes are crossed to get ceramic base antimicrobial coating material.
Compared with prior art, the invention has the following advantages that
1, for anti-biotic material of the invention by being sprayed at metal material surface, wearability is strong, can efficiently reduce due to material Local bacterial mass propagation problem caused by material surface abrasion causes anti-biotic material to be unevenly distributed.
2, antimicrobial coating material of the invention has biggish specific surface area and pore structure abundant, makes effective antimicrobial component It is protected, is conducive to maintain permanently effective sterilization factors concentration, and sterilization factors can be sustained in a long time, sterilize holding effect Time is long.
3, the ceramic base antimicrobial coating material that the present invention obtains, can be sprayed at hard material surface and be sprayed at needle Equal soft materials surface is knitted, the scope of application of anti-biotic material of the same race is expanded.
Specific embodiment
In order to make the objectives, technical solutions, and advantages of the present invention clearer, the present invention is carried out below further It is described in detail.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not used to limit this hair It is bright.
Embodiment 1: ceramic base antimicrobial coating material is prepared using method one
1) a certain amount of micro-silver powder is taken, is put into rf induction plasma powder manufacturing apparatus, nodularization powder is heated, is producing Powder in be added 20wt% dehydrated alcohol, high speed dispersion, then with tube centrifuge be classified 2-3 times, finally obtain dispersion Property good powder dried in vacuum drying oven under the conditions of 35-45 DEG C it is stand-by;
2) a certain amount of Ti (OH) is taken4, nanometer titanium dioxide titanium valve is prepared using rf induction plasma, in the powder produced Then the middle dehydrated alcohol that 20wt% is added, high speed dispersion are classified 2-3 times with tube centrifuge, finally obtain favorable dispersibility Powder dried in vacuum drying oven under the conditions of 35-45 DEG C it is stand-by;
3) preparation of ceramic base antimicrobial coating material:
1. weighing solid powder in proportion: the nanometer titanium dioxide titanium valve of the nano silver of 12.0wt%, 18.0wt%, The ultra-fine porous aluminas of 40.0wt%, other metal powders of 30.0wt%, other described nano metal powders are Nanometer Copper Powder;
2. weighing organic reagent 1:60.0wt% dehydrated alcohol, 8.0wt% silicon surface active agent and 32.0wt% in proportion Dioxanes;
3. the weight ratio of organic reagent 1 and solid powder is 1:1;
The nano silver weighed up and nanometer titanium dioxide titanium valve are poured into after 4. organic reagent 1 is mixed and stirred for uniformly, It is uniformly dispersed under 300-1000 revs/min of revolving speed, then um porous aluminium oxide is added again, high-speed stirred 3-6 is small immediately When, then separated with tube centrifuge, the mixed-powder for being sunken to tube wall is dried in vacuum drying oven at 35-45 DEG C, crosses 200 mesh Sieve is to get ceramic base antimicrobial coating material mixed-powder;
5. it is anhydrous to weigh organic reagent 2:10.0wt% ethyl cellulose, 68.0wt% terpinol and 22.0wt% in proportion Ethyl alcohol;
6. the weight ratio of organic reagent 2 and ceramic base antimicrobial coating material mixed-powder is 1:3;
7. organic reagent 2 is mixed and after stirring and dissolving is complete under the conditions of 45 DEG C, the ceramic base antibacterial that will weigh up Coating material mixed-powder pours into, and is uniformly dispersed under 300-1000 revs/min of revolving speed, then be sprayed with spray dryer It is dry, 200 meshes are crossed to get ceramic base antimicrobial coating material.
Embodiment 2: ceramic base antimicrobial coating material is prepared using method two
1) a certain amount of micro-silver powder is taken, is put into rf induction plasma powder manufacturing apparatus, nodularization powder is heated, is producing Powder in be added 20wt% dehydrated alcohol, high speed dispersion, then with tube centrifuge be classified 2-3 times, finally obtain dispersion Property good powder dried in vacuum drying oven under the conditions of 35-45 DEG C it is stand-by;
2) a certain amount of TiO (OH) is taken2, nanometer titanium dioxide titanium valve is prepared using rf induction plasma, in the powder produced The dehydrated alcohol of 20wt% is added in end, then high speed dispersion is classified 2-3 times with tube centrifuge, it is good to finally obtain dispersibility Good powder is dried stand-by under the conditions of 35-45 DEG C in vacuum drying oven;
3) preparation of ceramic base antimicrobial coating material:
1. weighing solid powder in proportion: the nanometer Ag of 18.0wt%2The nanometer titanium dioxide titanium valve of O, 24.0wt%, The ultra-fine porous aluminas of 58.0wt%, other metal powders of 0wt%, other described nano metal powders are nanometer aluminium powder;
2. weighing organic reagent 1:90.0wt% dehydrated alcohol, 2.0wt% silicon surface active agent and 8.0wt% bis- in proportion Oxane;
3. the weight ratio of organic reagent 1 and solid powder is 2:1;
The nano silver weighed up and nanometer titanium dioxide titanium valve are poured into after 4. organic reagent 1 is mixed and stirred for uniformly, It is uniformly dispersed under 300-1000 revs/min of revolving speed, then um porous aluminium oxide is added again, high-speed stirred 3-6 is small immediately When, then separated with tube centrifuge, the mixed-powder for being sunken to tube wall is dried in vacuum drying oven at 35-45 DEG C, crosses 200 mesh Sieve is to get ceramic base antimicrobial coating material mixed-powder;
5. it is anhydrous to weigh organic reagent 2:38.0wt% ethyl cellulose, 27.0wt% terpinol and 35.0wt% in proportion Ethyl alcohol;
6. the weight ratio of organic reagent 2 and ceramic base antimicrobial coating material mixed-powder is 1:6;
7. organic reagent 2 is mixed and after stirring and dissolving is complete under the conditions of 45 DEG C, the ceramic base antibacterial that will weigh up Coating material mixed-powder pours into, and is uniformly dispersed under 300-1000 revs/min of revolving speed, then be sprayed with spray dryer It is dry, 200 meshes are crossed to get ceramic base antimicrobial coating material.
Embodiment 3: ceramic base antimicrobial coating material is prepared using method three
1) a certain amount of micro-silver powder is taken, is put into rf induction plasma powder manufacturing apparatus, nodularization powder is heated, is producing Powder in be added 20wt% dehydrated alcohol, high speed dispersion, then with tube centrifuge be classified 2-3 times, finally obtain dispersion Property good powder dried in vacuum drying oven under the conditions of 35-45 DEG C it is stand-by;
2) a certain amount of TiO is taken2, nanometer titanium dioxide titanium valve is prepared using rf induction plasma, in the powder produced The dehydrated alcohol of 20wt% is added, then high speed dispersion is classified 2-3 times with tube centrifuge, finally obtains favorable dispersibility Powder is dried stand-by under the conditions of 35-45 DEG C in vacuum drying oven;
3) preparation of ceramic base antimicrobial coating material:
1. weighing solid powder in proportion: the nanometer Ag of 25.0wt%2O2, the nanometer titanium dioxide titanium valve of 32.0wt%, The ultra-fine porous aluminas of 28.0wt%, other metal powders of 15.0wt%, other described nano metal powders are Nanometer Copper Arbitrary proportion mixture in powder, nano titanium powder;
2. weighing organic reagent 1:64.5wt% dehydrated alcohol, 0.5wt% silicon surface active agent and 35.0wt% in proportion Dioxanes;
3. the weight ratio of organic reagent 1 and solid powder is 3:2;
The nano silver weighed up and nanometer titanium dioxide titanium valve are poured into after 4. organic reagent 1 is mixed and stirred for uniformly, It is uniformly dispersed under 300-1000 revs/min of revolving speed, then um porous aluminium oxide is added again, high-speed stirred 3-6 is small immediately When, then separated with tube centrifuge, the mixed-powder for being sunken to tube wall is dried in vacuum drying oven at 35-45 DEG C, crosses 200 mesh Sieve is to get ceramic base antimicrobial coating material mixed-powder;
5. it is anhydrous to weigh organic reagent 2:30.0wt% ethyl cellulose, 62.0wt% terpinol and 8.0wt% in proportion Ethyl alcohol;
6. the weight ratio of organic reagent 2 and ceramic base antimicrobial coating material mixed-powder is 1:10;
7. organic reagent 2 is mixed and after stirring and dissolving is complete under the conditions of 45 DEG C, the ceramic base antibacterial that will weigh up Coating material mixed-powder pours into, and is uniformly dispersed under 300-1000 revs/min of revolving speed, then be sprayed with spray dryer It is dry, 200 meshes are crossed to get ceramic base antimicrobial coating material.
Comparative example
1) a certain amount of micro-silver powder is taken, is put into rf induction plasma powder manufacturing apparatus, nodularization powder is heated, is producing Powder in the dehydrated alcohol of 20wt% is added, high speed dispersion finally obtains the powder of favorable dispersibility under the conditions of 35-45 DEG C It is dried in vacuum drying oven stand-by;
2) a certain amount of TiO (OH) is taken2, nanometer titanium dioxide titanium valve is prepared using rf induction plasma, in the powder produced The dehydrated alcohol of 20wt% is added in end, high speed dispersion finally obtains the powder of favorable dispersibility vacuum under the conditions of 35-45 DEG C It is dried in baking oven stand-by;
3) preparation of ceramic base antimicrobial coating material:
1. weighing solid powder in proportion: the nanometer Ag of 18.0wt%2The nanometer titanium dioxide titanium valve of O, 24.0wt%, The ultra-fine porous aluminas of 58.0wt%, other metal powders of 0wt%;
2. weighing organic reagent 1:90.0wt% dehydrated alcohol, 2.0wt% silicon surface active agent and 8.0wt% bis- in proportion Oxane;
3. the weight ratio of organic reagent 1 and solid powder is 2:1;
The nano silver weighed up and nanometer titanium dioxide titanium valve are poured into after 4. organic reagent 1 is mixed and stirred for uniformly, It is uniformly dispersed under 300-1000 revs/min of revolving speed, then um porous aluminium oxide is added again, high-speed stirred 3-6 is small immediately When, then separated with tube centrifuge, the mixed-powder for being sunken to tube wall is dried in vacuum drying oven at 35-45 DEG C, crosses 200 mesh Sieve is to get ceramic base antimicrobial coating material.
Ceramic base antimicrobial coating material prepared by embodiment 1-3 and comparative example, can direct spraying in the solids material such as metal Expect surface, or the matrix by covering upper tack on the surface of the antimicrobial coating material, then direct spraying is in flexible material Surface.
Experimental example: performance test
1. antibacterial tests
Ceramic base antimicrobial coating material prepared by embodiment 1-3 and comparative example resists several frequently seen representative bacterium Bacterium test, operating procedure are as follows: taking 10.0cm*10.0cm size, with a thickness of the stainless steel substrates of 0.1mm, ceramic base antibacterial is applied Layer material thermal jet is applied to stainless steel surface, then coating thickness carries out material anti-microbial property test, as a result such as up to 100 μm or more Shown in table 1:
Table 1: antibacterial tests result
From table 1 the result shows that, this kind of anti-biotic material to staphylococcus aureus, Escherichia coli, Candida albicans act on Between one section of inch, the order of magnitude of three kinds of bacterium is reduced obviously, shows it with very strong antibacterial effect.From the pottery made with comparative example The antibacterial effect data of porcelain base antimicrobial coating material using the nano silver containing greater particle size and titanium dioxide it is found that prepared anti- Its antibacterial effect of bacterium material is lower than the anti-biotic material using method provided by the present invention preparation;From between embodiment 1,2,3 Data compare it is found that heterogeneity and the anti-biotic material of content preparation have large effect to anti-microbial property, and smaller particle contains Silver compound and its anti-microbial property of the material of nano-titanium dioxide preparation are slightly excellent, and embodiment 2 and embodiment 3 are because of the oxygen containing silver Compound, excellent antibacterial performance, and partly or entirely decompose after the heating, the smaller nano silver of partial size is generated, there is non-convention The antibacterial effect thought.

Claims (5)

1. a kind of ceramic base antimicrobial coating material, which is characterized in that including porous aluminas and be attached in porous aluminas Silver and nano titania anti-biotic material, are made of the following components:
Containing Silver nano-powder, nano-titanium dioxide, ultra-fine porous aluminas and other nano metal powders, percentages silver has Effect content is 12.0-25.0wt%, and the effective content of titanium dioxide is 18.0-32.0wt%, ultra-fine porous aluminas it is effective Content is 28.0-58.0wt%, other metal powders 0-30.0wt%;
It is described to contain Silver nano-powder, it is nano silver, nanometer Ag2O and nanometer Ag2O2One or more of, mix Shi Weiren Meaning ratio;
The raw material of the nano-titanium dioxide, for Ti (NO)4、TiO2With TiO (NO)2One or more of, when mixing is Arbitrary proportion;
The ultra-fine porous aluminas is micron-sized ultra-fine porous aluminas, and partial size is in 0.5-5.0 μ m;
Other described nano metal powders are one of Nanometer Copper powder, nanometer aluminium powder, nano zinc powder, nano titanium powder or two Kind or more, it is arbitrary proportion when mixing;
The composition of organic reagent 1: 60.0-90.0wt% dehydrated alcohol, 0.5-8.0wt% silicon surface active agent and 8.0- 35.0wt% dioxanes;
The weight ratio of organic reagent 1 and the above solid powder is 1:1-2:1;
The composition of organic reagent 2: 10.0-38.0wt% ethyl cellulose, 30.0-68.0wt% terpinol and 8.0-35.0wt% Dehydrated alcohol;
The weight ratio of organic reagent 2 and (the above solid powder of organic reagent 1+) is 1:3-1:10.
2. a kind of preparation method of ceramic base antimicrobial coating material described in claim 1, which is characterized in that including walking as follows It is rapid:
1) it prepares nano silver: nano-silver powder being prepared using rf induction plasma, the nano-silver powder partial size of preparation is in 5-50nm;
2) it prepares nanometer titanium dioxide titanium valve: utilizing Ti (NO)4、TiO2With TiO (NO)2One or more of do raw material, adopt Nanometer titanium dioxide titanium valve is prepared with rf induction plasma, the nano-titanium dioxide powder diameter of preparation is in 5-50nm;
3) preparation of ceramic base antimicrobial coating material:
1. weighing solid powder in proportion: the nanometer titanium dioxide titanium valve of the nano silver of 12.0-25.0wt%, 18.0-32.0wt%, The ultra-fine porous aluminas of 28.0-58.0wt%, other metal powders of 0-30.0wt%;
2. weighing organic reagent 1:60.0-90.0wt% dehydrated alcohol, 0.5-8.0wt% silicon surface active agent and 8.0- in proportion 35.0wt% dioxanes;
3. the weight ratio of organic reagent 1 and solid powder is 1:1-2:1;
4. the nano silver weighed up and nanometer titanium dioxide titanium valve are poured into, after organic reagent 1 is mixed and stirred for uniformly in 300- It is uniformly dispersed under 1000 revs/min of revolving speed, then um porous aluminium oxide is added again, high-speed stirred 3-6 hours immediately, then Separated with tube centrifuge, the mixed-powder for being sunken to tube wall dried in vacuum drying oven at 35-45 DEG C, cross 200 meshes to get Ceramic base antimicrobial coating material mixed-powder;
5. weighing organic reagent 2:10.0-38.0wt% ethyl cellulose, 30.0-68.0wt% terpinol and 8.0- in proportion 35.0wt% dehydrated alcohol;
6. the weight ratio of organic reagent 2 and ceramic base antimicrobial coating material mixed-powder is 1:3-1:10;
7. organic reagent 2 is mixed and after stirring and dissolving is complete under the conditions of 45 DEG C, the ceramic base antimicrobial coating that will weigh up Material mixed-powder pours into, and is uniformly dispersed under 300-1000 revs/min of revolving speed, then is done by spraying with spray dryer It is dry, 200 meshes are crossed to get ceramic base antimicrobial coating material.
3. a kind of preparation method of ceramic base antimicrobial coating material described in claim 1, which is characterized in that including walking as follows It is rapid:
1) nanometer Ag is screened2O: by nanometer Ag2O particle pours into ethanol solution, is dispersed 5-10 minutes with high speed disperser, It is separated 2-3 times with high speed tube centrifuge again;
2) it prepares nanometer titanium dioxide titanium valve: utilizing Ti (NO)4、TiO2With TiO (NO)2One or more of do raw material, adopt Nanometer titanium dioxide titanium valve is prepared with rf induction plasma, the nano-titanium dioxide powder diameter of preparation is in 5-50nm;
3) preparation of ceramic base antimicrobial coating material:
1. weighing solid powder in proportion: the nanometer Ag of 12.0-25.0wt%2The nano-titanium dioxide of O, 18.0-32.0wt% Powder, the ultra-fine porous aluminas of 28.0-58.0wt%, other metal powders of 0-30.0wt%;
2. weighing organic reagent 1:60.0-90.0wt% dehydrated alcohol, 0.5-8.0wt% silicon surface active agent and 8.0- in proportion 35.0wt% dioxanes;
3. the weight ratio of organic reagent 1 and solid powder is 1:1-2:1;
4. the nano silver weighed up and nanometer titanium dioxide titanium valve are poured into, after organic reagent 1 is mixed and stirred for uniformly in 300- It is uniformly dispersed under 1000 revs/min of revolving speed, then um porous aluminium oxide is added again, high-speed stirred 3-6 hours immediately, then Separated with tube centrifuge, the mixed-powder for being sunken to tube wall dried in vacuum drying oven at 35-45 DEG C, cross 200 meshes to get Ceramic base antimicrobial coating material mixed-powder;
5. weighing organic reagent 2:10.0-38.0wt% ethyl cellulose, 30.0-68.0wt% terpinol and 8.0- in proportion 35.0wt% dehydrated alcohol;
6. the weight ratio of organic reagent 2 and ceramic base antimicrobial coating material mixed-powder is 1:3-1:10;
7. organic reagent 2 is mixed and after stirring and dissolving is complete under the conditions of 45 DEG C, the ceramic base antimicrobial coating that will weigh up Material mixed-powder pours into, and is uniformly dispersed under 300-1000 revs/min of revolving speed, then is done by spraying with spray dryer It is dry, 200 meshes are crossed to get ceramic base antimicrobial coating material.
4. a kind of preparation method of ceramic base antimicrobial coating material described in claim 1, which is characterized in that including walking as follows It is rapid:
1) nanometer Ag is screened2O2: by nanometer Ag2O2Particle pours into ethanol solution, is dispersed 5-10 minutes with high speed disperser, It is separated 2-3 times with high speed tube centrifuge again;
2) it prepares nanometer titanium dioxide titanium valve: utilizing Ti (NO)4、TiO2With TiO (NO)2One or more of do raw material, adopt Nanometer titanium dioxide titanium valve is prepared with rf induction plasma, the nano-titanium dioxide powder diameter of preparation is in 5-50nm;
3) preparation of ceramic base antimicrobial coating material:
1. weighing solid powder in proportion: the nanometer Ag of 12.0-25.0wt%2O2, the nano-titanium dioxide of 18.0-32.0wt% Powder, the ultra-fine porous aluminas of 28.0-58.0wt%, other metal powders of 0-30.0wt%;
2. weighing organic reagent 1:60.0-90.0wt% dehydrated alcohol, 0.5-8.0wt% silicon surface active agent and 8.0- in proportion 35.0wt% dioxanes;
3. the weight ratio of organic reagent 1 and solid powder is 1:1-2:1;
4. the nano silver weighed up and nanometer titanium dioxide titanium valve are poured into, after organic reagent 1 is mixed and stirred for uniformly in 300- It is uniformly dispersed under 1000 revs/min of revolving speed, then um porous aluminium oxide is added again, high-speed stirred 3-6 hours immediately, then Separated with tube centrifuge, the mixed-powder for being sunken to tube wall dried in vacuum drying oven at 35-45 DEG C, cross 200 meshes to get Ceramic base antimicrobial coating material mixed-powder;
5. weighing organic reagent 2:10.0-38.0wt% ethyl cellulose, 30.0-68.0wt% terpinol and 8.0- in proportion 35.0wt% dehydrated alcohol;
6. the weight ratio of organic reagent 2 and ceramic base antimicrobial coating material mixed-powder is 1:3-1:10;
7. organic reagent 2 is mixed and after stirring and dissolving is complete under the conditions of 45 DEG C, the ceramic base antimicrobial coating that will weigh up Material mixed-powder pours into, and is uniformly dispersed under 300-1000 revs/min of revolving speed, then is done by spraying with spray dryer It is dry, 200 meshes are crossed to get ceramic base antimicrobial coating material.
5. a kind of preparation method of ceramic base antimicrobial coating material described in claim 2-4, it is characterised in that: the preparation Nano silver or screening nanometer Ag2O, partial size are 5-15 nanometers;Described prepares nanometer titanium dioxide titanium valve, and partial size is 5-15 nanometers.
CN201811635709.3A 2018-12-29 2018-12-29 A kind of ceramic base antimicrobial coating material and preparation method thereof Pending CN109679384A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201811635709.3A CN109679384A (en) 2018-12-29 2018-12-29 A kind of ceramic base antimicrobial coating material and preparation method thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201811635709.3A CN109679384A (en) 2018-12-29 2018-12-29 A kind of ceramic base antimicrobial coating material and preparation method thereof

Publications (1)

Publication Number Publication Date
CN109679384A true CN109679384A (en) 2019-04-26

Family

ID=66191129

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201811635709.3A Pending CN109679384A (en) 2018-12-29 2018-12-29 A kind of ceramic base antimicrobial coating material and preparation method thereof

Country Status (1)

Country Link
CN (1) CN109679384A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110776818A (en) * 2019-11-14 2020-02-11 深圳市冠为科技股份有限公司 Adsorptive porous nano silver/aluminum oxide/polyester composite water-based coating agent and preparation method thereof
CN115044239A (en) * 2022-06-29 2022-09-13 武汉苏泊尔炊具有限公司 Antibacterial composite material for pot, manufacturing method thereof and pot
CN115477536A (en) * 2022-10-11 2022-12-16 中国科学院赣江创新研究院 Antibacterial ceramic, preparation method, regeneration method and application thereof

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1552205A (en) * 2003-05-30 2004-12-08 中国科学院大连化学物理研究所 Nanometer catalyst with adsorbing and virus killing activity
CN103351724A (en) * 2013-07-16 2013-10-16 天津新实能源科技有限公司 Preparation method of self-cleaning anti-static screen printing transparent coating
CN105238103A (en) * 2015-10-30 2016-01-13 江门四方英特宝涂料有限公司 Energy-saving and antibacterial nano ceramic coating

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1552205A (en) * 2003-05-30 2004-12-08 中国科学院大连化学物理研究所 Nanometer catalyst with adsorbing and virus killing activity
CN103351724A (en) * 2013-07-16 2013-10-16 天津新实能源科技有限公司 Preparation method of self-cleaning anti-static screen printing transparent coating
CN105238103A (en) * 2015-10-30 2016-01-13 江门四方英特宝涂料有限公司 Energy-saving and antibacterial nano ceramic coating

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
周瑞发等: "《纳米材料技术》", 31 July 2003, 国防工业出版社 *

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110776818A (en) * 2019-11-14 2020-02-11 深圳市冠为科技股份有限公司 Adsorptive porous nano silver/aluminum oxide/polyester composite water-based coating agent and preparation method thereof
CN110776818B (en) * 2019-11-14 2021-07-20 深圳市冠为科技股份有限公司 Adsorptive porous nano silver/aluminum oxide/polyester composite water-based coating agent and preparation method thereof
CN115044239A (en) * 2022-06-29 2022-09-13 武汉苏泊尔炊具有限公司 Antibacterial composite material for pot, manufacturing method thereof and pot
CN115044239B (en) * 2022-06-29 2023-08-08 武汉苏泊尔炊具有限公司 Antibacterial composite material for cookware, manufacturing method thereof and cookware
CN115477536A (en) * 2022-10-11 2022-12-16 中国科学院赣江创新研究院 Antibacterial ceramic, preparation method, regeneration method and application thereof

Similar Documents

Publication Publication Date Title
CN109722086A (en) A kind of silver-based antimicrobial material and preparation method thereof containing porous composite calcium carbonate
CN109486267A (en) A kind of composite antibacterial coating and preparation method thereof containing silica
CN109679384A (en) A kind of ceramic base antimicrobial coating material and preparation method thereof
Bagchi et al. Antimicrobial efficacy and biocompatibility study of copper nanoparticle adsorbed mullite aggregates
CN109851396A (en) A kind of antibiotic ceramic tile and preparation method thereof
CN107469820A (en) A kind of photocatalyst and preparation method thereof
CN101269961A (en) Antimicrobial ceramic cutting tool and its manufacturing method
CN105565670B (en) A kind of ceramics or enamel sterilization glazing type material and preparation method thereof and its application
CN109722087A (en) A kind of copper-based composite antibacterial coating material of argentiferous and preparation method thereof
CN101407412B (en) Nano composite active biological ceramic powder and processing process thereof
CN109776083A (en) A kind of multi-stage porous ceramic material and preparation method thereof with complex function
CN109852152A (en) A kind of antibiotic paint and preparation method thereof containing porous organism
CN109437924B (en) Antibacterial ceramic product and preparation method thereof
JP2021100978A (en) Antivirus agent
Marković et al. The influence of coating with aminopropyl triethoxysilane and CuO/Cu2O nanoparticles on antimicrobial activity of cotton fabrics under dark conditions
CN102432339A (en) Slurry and ceramic for high-strength anti-bacterial ceramic, and preparation methods thereof
CN106270479A (en) A kind of attapulgite-nanometer silver composite inorganic powder and preparation method
CN101134112B (en) Silver-carrying active aluminum oxide antimicrobials and method for preparing the same
CN111231039A (en) Antibacterial, antiviral and mildewproof wooden product and preparation method thereof
Kim et al. Thermal fabrication and characterization of Ag nanoparticle-activated carbon composites for functional wound-dressing additives
CN102294052A (en) Preparation method of medical high polymer based silver nano material
CN106518168B (en) A kind of spary coating type ceramic surface sintering silver paste and preparation method thereof
CN109705668A (en) A kind of aluminium base antimicrobial coating material and preparation method thereof
KR20100138320A (en) Paint composition for painting
CN111269602A (en) Antibacterial base material and preparation method thereof

Legal Events

Date Code Title Description
PB01 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination
RJ01 Rejection of invention patent application after publication
RJ01 Rejection of invention patent application after publication

Application publication date: 20190426