CN107652845A - A kind of novel electrostatic prevention terrace system and manufacture method - Google Patents
A kind of novel electrostatic prevention terrace system and manufacture method Download PDFInfo
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- CN107652845A CN107652845A CN201710978528.XA CN201710978528A CN107652845A CN 107652845 A CN107652845 A CN 107652845A CN 201710978528 A CN201710978528 A CN 201710978528A CN 107652845 A CN107652845 A CN 107652845A
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- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09D—COATING 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
- C09D163/00—Coating compositions based on epoxy resins; Coating compositions based on derivatives of epoxy resins
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- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09D—COATING 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
- C09D5/00—Coating compositions, e.g. paints, varnishes or lacquers, characterised by their physical nature or the effects produced; Filling pastes
- C09D5/002—Priming paints
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- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09D—COATING 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
- C09D5/00—Coating compositions, e.g. paints, varnishes or lacquers, characterised by their physical nature or the effects produced; Filling pastes
- C09D5/24—Electrically-conducting paints
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
- E04F15/00—Flooring
- E04F15/12—Flooring or floor layers made of masses in situ, e.g. seamless magnesite floors, terrazzo gypsum floors
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08K—Use of inorganic or non-macromolecular organic substances as compounding ingredients
- C08K2201/00—Specific properties of additives
- C08K2201/011—Nanostructured additives
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Architecture (AREA)
- Life Sciences & Earth Sciences (AREA)
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- Wood Science & Technology (AREA)
- Organic Chemistry (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Paints Or Removers (AREA)
Abstract
A kind of novel electrostatic prevention terrace system, from bottom to top including solvent-free priming coat, antistatic copper foil layer, static conductive floating coat, antistatic Self-leveling finishing coat;The antistatic Self-leveling finishing coat is made up of following components by weight:Low viscosity liquid-state epoxy resin 35 50%, 12 to 14 carbon glycidol ethers 4 8%, 325 mesh silica flours 20 40%, modified single-walled carbon nanotube 0.005 0.05%, hyper-dispersant 0.5 1.2%, phenmethylol 2 5%, aliphatic cyclic amine 10 20%, mill base 5 8%, defoamer 0.1 0.5%, levelling agent 0.1 0.6%.The present invention is by introducing Latest Materials single-walled carbon nanotube and optimization of C/C composites so that the sheet resistance of terrace can be 5 × 104~1 × 109Adjusted between Ω, and electric conductivity, uniformly without blind spot, avoid has blind spot and surface to have the drawbacks of particle using conventional conductive fiber generation electric conductivity.
Description
Technical field
The invention belongs to the preparation field of terrace, more particularly to a kind of novel electrostatic prevention terrace system and manufacture method.
Background technology
Terrace is the important foundation of building, and it is to build the part that bottom room contacts with bottom soil layer, and it carries low
The ground load in layer room, wear-resisting, the moistureproof, waterproof to have had, heat-insulating property.The place of electrostatic charge is easily accumulated at some
(such as electronics computer room, electronic equipment factory, munitions factory, placement ammunition depot and other inflammable and explosive fields), terrace also needs to
Carry out antistatic process.In the past, in the place for needing antistatic, the method for pasting antistatic sheet material is used mostly, in recent years, with
The development of anti-static material, adds anti-static material in terrace more, certain anti-static effect can be played.It is but right at some
Electrostatic requires in high place that the antistatic effect of this terrace can not meet to require, and electric conductivity be present and have blind spot and table
There is the drawbacks of particle in face.Therefore, it is to invent a kind of high quality terrace that can be prevented electrostatic or can effectively eliminate electrostatic very much
It is necessary.
The content of the invention
In order to solve the above technical problems, the invention provides a kind of novel electrostatic prevention terrace system and manufacture method, pass through
Introduce Latest Materials single-walled carbon nanotube and optimization of C/C composites so that the sheet resistance of terrace can be 5 × 104~1 × 109Between Ω
Adjustment, and electric conductivity, uniformly without blind spot, avoid has blind spot and surface to have particle using conventional conductive fiber generation electric conductivity
The drawbacks of.
The technical solution adopted by the present invention is:A kind of novel electrostatic prevention terrace system, from bottom to top including solvent-free primary coat
Layer, antistatic copper foil layer, static conductive floating coat, antistatic Self-leveling finishing coat;It is characterized in that:The static conductive floating coat is
It is made up of following components by weight:Low viscosity liquid-state epoxy resin 35-45%, 12 to 14 carbon glycidol ether 4-
8%, 325 mesh silica flour 30-50%, modified single-walled carbon nanotube 0.005-0.1%, hyper-dispersant 0.4-1.2%, phenmethylol 2-
5%, aliphatic cyclic amine 10-20%.
The antistatic Self-leveling finishing coat is made up of following components by weight:Low viscosity liquid-state epoxy resin
35-50%, 12 to 14 carbon glycidol ether 4-8%, 325 mesh silica flour 20-40%, modified single-walled carbon nanotube 0.005-
0.05%, hyper-dispersant 0.5-1.2%, phenmethylol 2-5%, aliphatic cyclic amine 10-20%, mill base 5-8%, defoamer 0.1-0.5%,
Levelling agent 0.1-0.6%.
Further, the solvent-free priming coat is made up of following components by weight:Low-viscosity (mobile) liquid epoxy
Resin 60-80%, 12 to 14 carbon glycidol ether 10-20%, low viscosity alicyclic ring amine hardener 15-25%.
Further, the antistatic copper foil layer is to be laid by intersecting parallels by copper foil and done grounding to copper foil to form.
Further, the levelling agent is one kind in BYK-323 and BYK-3550;The defoamer is BYK-A530.
Further, the hyper-dispersant is polyester type ultra-dispersant agent.
Further, the modified single-walled carbon nanotube is the single-walled carbon nanotube of surface carboxyl groups.
Present invention also offers a kind of manufacture method of novel electrostatic prevention terrace system, comprise the following steps:
Step 1:The preparation of modified carbon nano-tube:
S1. single-walled carbon nanotube ultrasound 30min is added in 69% concentrated nitric acid;
S2. in reflux, 120 degrees Celsius of oil baths and magnetic agitation 10 hours;
S3. backflow terminates, and stands, and removes nitric acid, adds water stirring a few minutes and then stands, remove clear liquid, repeats 2 to 3
After secondary, add water, ultrasonic 15-20min, then magnetic stirrer over night, is finally filtered, with water and alcohol flushing to washing lotion pH
It is worth close to 7;
S4. dried after filtering in 80 degrees centigrades.
Step 2:The preparation of solvent-free priming coat:
Low-viscosity (mobile) liquid epoxy resin is added in dispersion cylinder, 12 to 14 carbon glycidol ethers is then added, is stirring
Machine rotating speed is mixed to be disperseed under 800r/min speed, low viscosity ester cyclammonium curing agent is added after being uniformly dispersed solvent-free bottom is made
Coating.
Step 3:The preparation of static conductive floating coat:
S1. low-viscosity (mobile) liquid epoxy resin is added in dispersion cylinder, then sequentially adds 12 to 14 carbon glycidols
Ether, hyper-dispersant, modified single-walled carbon nanotube, disperseed in the case where mixer rotating speed is 2000r/min speed, after being uniformly dispersed
Adjustment mixer rotating speed is that 200r/min stirrings 5-10min is de-gassed;
S2. 325 mesh silica flours, phenmethylol are sequentially added in S1 systems, mixer rotating speed divides under the conditions of being 1200r/min
Dissipate, should ensure that a component has been uniformly dispersed when should be noted one component of every addition;
S3. add aliphatic cyclic amine and static conductive floating coat is made.
Step 4:The preparation of antistatic Self-leveling finishing coat:
S1. low-viscosity (mobile) liquid epoxy resin is added in dispersion cylinder, then sequentially adds 12 to 14 carbon glycidols
Ether, hyper-dispersant, modified single-walled carbon nanotube, disperseed in the case where mixer rotating speed is 2000r/min speed, after being uniformly dispersed
Adjustment mixer rotating speed is that 200r/min stirrings 5-10min is de-gassed;
S2. 325 mesh silica flours, mill base, defoamer, levelling agent, phenmethylol, mixer rotating speed are sequentially added in S1 systems
To disperse under the conditions of 1200r/min, it should ensure that a component has been uniformly dispersed when should be noted one component of every addition;
S3. add low viscosity alicyclic ring amine hardener and antistatic Self-leveling finishing coat is made.
Step 5:Basal plane processing.
Step 6:Brush solvent-free priming coat.
Step 7:Lay antistatic copper foil layer.
Step 8:Scratch static conductive floating coat.
Step 9:Polishing, dust suction.
Step 10:Applied 1 time with antistatic Self-leveling finishing coat trowel.
What the present invention obtained has the beneficial effect that:
(1) the single-walled carbon nanotube new material stable by introducing hyper-dispersant, utilizes the superelevation of single-walled carbon nanotube
Specific surface area and electric conductivity, after formulation optimization, non-solvent epoxy system can be caused to reach the sheet resistance of setting, surface
Resistance can be 5 × 104~1 × 109Adjusted between Ω;
(2) in static conductive floating coat, avoid and the drawbacks of containing a large amount of solvents is applied in conventional conductive;
(3) in antistatic Self-leveling finishing coat, electric conductivity uniformly without blind spot, is avoided and produced using conventional conductive fiber
Electric conductivity has blind spot and surface to have the drawbacks of particle;
(4) integral construction excellent effect, electric conductivity are uniformly and lasting.
Embodiment
The present invention is described in further details with reference to specific embodiment
Embodiment 1:A kind of novel electrostatic prevention terrace system, from bottom to top including solvent-free priming coat, antistatic copper foil layer,
Static conductive floating coat, antistatic Self-leveling finishing coat.
The solvent-free priming coat is made up of following components by weight:Low-viscosity (mobile) liquid epoxy resin 68%,
12 to 14 carbon glycidol ethers 10%, low viscosity alicyclic ring amine hardener 22%.
The antistatic copper foil layer is to be laid by intersecting parallels by copper foil and done grounding to copper foil to form.
The static conductive floating coat is made up of following components by weight:Low viscosity liquid-state epoxy resin
40.8%, 12 to 14 carbon glycidol ethers 4.9%, 325 mesh silica flours 37.7%, modified single-walled carbon nanotube 0.02%,
Polyester type ultra-dispersant agent 1.0%, phenmethylol 3.6%, aliphatic cyclic amine 12%.
The antistatic Self-leveling finishing coat is made up of following components by weight:Low viscosity liquid-state epoxy resin
45%, 12 to 14 carbon glycidol ethers 5.4%, 325 mesh silica flours 25.4%, modified single-walled carbon nanotube 0.01%, surpass
Dispersant 0.8%, phenmethylol 2.5%, aliphatic cyclic amine 13.9%, mill base 6%, defoamer 0.4%, levelling agent 0.6%.
The levelling agent is one kind in BYK-323 and BYK-3550;The defoamer is BYK-A530;It is described ultra-dispersed
Agent is polyester type ultra-dispersant agent.
The modified single-walled carbon nanotube is the single-walled carbon nanotube of surface carboxyl groups.
Embodiment 2:A kind of novel electrostatic prevention terrace system, from bottom to top including solvent-free priming coat, antistatic copper foil layer,
Static conductive floating coat, antistatic Self-leveling finishing coat.
The solvent-free priming coat is made up of following components by weight:Low-viscosity (mobile) liquid epoxy resin 68%,
12 to 14 carbon glycidol ethers 10%, low viscosity alicyclic ring amine hardener 22%.
The antistatic copper foil layer is to be laid by intersecting parallels by copper foil and done grounding to copper foil to form.
The static conductive floating coat is made up of following components by weight:Low viscosity liquid-state epoxy resin
40.8%, 12 to 14 carbon glycidol ethers 5.6%, 325 mesh silica flours 37.2%, modified single-walled carbon nanotube 0.02%,
Polyester type ultra-dispersant agent 0.8%, phenmethylol 3.6%, aliphatic cyclic amine 12%.
The antistatic Self-leveling finishing coat is made up of following components by weight:Low viscosity liquid-state epoxy resin
45%, 12 to 14 carbon glycidol ethers 6%, 325 mesh silica flours 25.2%, modified single-walled carbon nanotube 0.006%, oversubscription
Powder 0.6%, phenmethylol 2.5%, aliphatic cyclic amine 13.9%, mill base 6%, defoamer 0.4%, levelling agent 0.4%.
The levelling agent is one kind in BYK-323 and BYK-3550;The defoamer is BYK-A530;It is described ultra-dispersed
Agent is polyester type ultra-dispersant agent.
The modified single-walled carbon nanotube is the single-walled carbon nanotube of surface carboxyl groups.
Embodiment 3:A kind of novel electrostatic prevention terrace system, from bottom to top including solvent-free priming coat, antistatic copper foil layer,
Static conductive floating coat, antistatic Self-leveling finishing coat.
The solvent-free priming coat is made up of following components by weight:Low-viscosity (mobile) liquid epoxy resin 68%,
12 to 14 carbon glycidol ethers 10%, low viscosity alicyclic ring amine hardener 22%.
The antistatic copper foil layer is to be laid by intersecting parallels by copper foil and done grounding to copper foil to form.
The static conductive floating coat is made up of following components by weight:Low viscosity liquid-state epoxy resin
40.8%, 12 to 14 carbon glycidol ethers 5.6%, 325 mesh silica flours 37.4%, modified single-walled carbon nanotube 0.02%,
Polyester type ultra-dispersant agent 0.6%, phenmethylol 3.6%, aliphatic cyclic amine 12%.
The antistatic Self-leveling finishing coat is made up of following components by weight:Low viscosity liquid-state epoxy resin
45%, 12 to 14 carbon glycidol ethers 6%, 325 mesh silica flours 24.6%, modified single-walled carbon nanotube 0.015%, oversubscription
Powder 1.2%, phenmethylol 2.5%, aliphatic cyclic amine 13.9%, mill base 6%, defoamer 0.4%, levelling agent 0.4%.
The levelling agent is one kind in BYK-323 and BYK-3550;The defoamer is BYK-A530;It is described ultra-dispersed
Agent is polyester type ultra-dispersant agent.
The modified single-walled carbon nanotube is the single-walled carbon nanotube of surface carboxyl groups.
The novel electrostatic prevention terrace system of above-described embodiment 3, manufacture method are as follows:
Step 1:The preparation of modified carbon nano-tube:
S1. single-walled carbon nanotube ultrasound 30min is added in 69% concentrated nitric acid;
S2. in reflux, 120 degrees Celsius of oil baths and magnetic agitation 10 hours;
S3. backflow terminates, and stands, and removes nitric acid, adds water stirring a few minutes and then stands, remove clear liquid, repeats 2 to 3
After secondary, add water, ultrasonic 15-20min, then magnetic stirrer over night, is finally filtered, with water and alcohol flushing to washing lotion pH
It is worth close to 7;
S4. dried after filtering in 80 degrees centigrades.
Step 2:The preparation of solvent-free priming coat:
Low-viscosity (mobile) liquid epoxy resin is added in dispersion cylinder, 12 to 14 carbon glycidol ethers is then added, is stirring
Machine rotating speed is mixed to be disperseed under 800r/min speed, low viscosity ester cyclammonium curing agent is added after being uniformly dispersed solvent-free bottom is made
Coating.
Step 3:The preparation of static conductive floating coat:
S1. low-viscosity (mobile) liquid epoxy resin is added in dispersion cylinder, then sequentially adds 12 to 14 carbon glycidols
Ether, hyper-dispersant, modified single-walled carbon nanotube, disperseed in the case where mixer rotating speed is 2000r/min speed, after being uniformly dispersed
Adjustment mixer rotating speed is that 200r/min stirrings 5-10min is de-gassed;
S2. 325 mesh silica flours, phenmethylol are sequentially added in S1 systems, mixer rotating speed divides under the conditions of being 1200r/min
Dissipate, should ensure that a component has been uniformly dispersed when should be noted one component of every addition;
S3. add aliphatic cyclic amine and static conductive floating coat is made.
Step 4:The preparation of antistatic Self-leveling finishing coat:
S1. low-viscosity (mobile) liquid epoxy resin is added in dispersion cylinder, then sequentially adds 12 to 14 carbon glycidols
Ether, hyper-dispersant, modified single-walled carbon nanotube, disperseed in the case where mixer rotating speed is 2000r/min speed, after being uniformly dispersed
Adjustment mixer rotating speed is that 200r/min stirrings 5-10min is de-gassed;
S2. 325 mesh silica flours, mill base, defoamer, levelling agent, phenmethylol, mixer rotating speed are sequentially added in S1 systems
To disperse under the conditions of 1200r/min, it should ensure that a component has been uniformly dispersed when should be noted one component of every addition;
S3. add low viscosity alicyclic ring amine hardener and antistatic Self-leveling finishing coat is made.
Step 5:Basal plane processing.
Step 6:Brush solvent-free priming coat.
Step 7:Lay antistatic copper foil layer.
Step 8:Scratch static conductive floating coat.
Step 9:Polishing, dust suction.
Step 10:Applied 1 time with antistatic Self-leveling finishing coat trowel.
The manufacture method of other embodiment can refer to the manufacture method of embodiment 3.
Using the technical indicator of terrace system obtained by invention
Project | Embodiment 1 | Embodiment 2 | Embodiment 3 |
Sheet resistance/Ω | 6.9×106 | 7.5×108 | 4.9×105 |
Hardness (shore D) | 84 | 83 | 84 |
Wearability (750g/500r)/g | 0.019 | 0.022 | 0.019 |
Water resistance (168h) | Pass through | Pass through | Pass through |
Resistance to 10% sulfuric acid 48h | Pass through | Pass through | Pass through |
Resistance to 20% sodium hydroxide 72h | Pass through | Pass through | Pass through |
The gasoline of resistance to 120# 72h | Pass through | Pass through | Pass through |
Impact resistance | II grade | II grade | II grade |
Although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with
A variety of changes, modification can be carried out to these embodiments, replace without departing from the principles and spirit of the present invention by understanding
And modification, the scope of the present invention is defined by the appended.
Claims (7)
- A kind of 1. novel electrostatic prevention terrace system, from bottom to top including being applied in solvent-free priming coat, antistatic copper foil layer, static conductive Layer, antistatic Self-leveling finishing coat;It is characterized in that:The static conductive floating coat is made up of following components by weight:Low viscosity liquid-state epoxy resin 35-45%, ten Two to 14 carbon glycidol ether 4-8%, 325 mesh silica flour 30-50%, modified single-walled carbon nanotube 0.005-0.1%, oversubscription Powder 0.4-1.2%, phenmethylol 2-5%, aliphatic cyclic amine 10-20%;The antistatic Self-leveling finishing coat is made up of following components by weight:Low viscosity liquid-state epoxy resin 35- 50%, 12 to 14 carbon glycidol ether 4-8%, 325 mesh silica flour 20-40%, modified single-walled carbon nanotube 0.005- 0.05%, hyper-dispersant 0.5-1.2%, phenmethylol 2-5%, aliphatic cyclic amine 10-20%, mill base 5-8%, defoamer 0.1-0.5%, Levelling agent 0.1-0.6%.
- A kind of 2. novel electrostatic prevention terrace system according to claim 1, it is characterised in that:The solvent-free priming coat be by Following components composition by weight:Low-viscosity (mobile) liquid epoxy resin 60-80%, 12 to 14 carbon glycidol ether 10- 20%th, low viscosity alicyclic ring amine hardener 15-25%.
- A kind of 3. novel electrostatic prevention terrace system according to claim 1 or claim 2, it is characterised in that:The antistatic copper foil layer It is to be laid by intersecting parallels by copper foil and done grounding to copper foil to form.
- A kind of 4. novel electrostatic prevention terrace system according to claim 1, it is characterised in that:The levelling agent is BYK-323 With one kind in BYK-3550;The defoamer is BYK-A530.
- A kind of 5. novel electrostatic prevention terrace system according to claim 1, it is characterised in that:The hyper-dispersant is polyester-type Hyper-dispersant.
- A kind of 6. novel electrostatic prevention terrace system as claimed in claim 1, it is characterised in that:The modified single-walled carbon nanotube is The single-walled carbon nanotube of surface carboxyl groups.
- 7. a kind of manufacture method of novel electrostatic prevention terrace system, comprises the following steps:Step 1:The preparation of modified carbon nano-tube:S1. single-walled carbon nanotube ultrasound 30min is added in 69% concentrated nitric acid;S2. in reflux, 120 degrees Celsius of oil baths and magnetic agitation 10 hours;S3. backflow terminates, and stands, and removes nitric acid, adds water stirring a few minutes and then stands, removes clear liquid, after repeating 2 to 3 times, Add water, ultrasonic 15-20min, then magnetic stirrer over night, is finally filtered, and is connect with water and alcohol flushing to washing lotion pH value Nearly 7;S4. dried after filtering in 80 degrees centigrades;Step 2:The preparation of solvent-free priming coat:Low-viscosity (mobile) liquid epoxy resin is added in dispersion cylinder, 12 to 14 carbon glycidol ethers are then added, in mixer Rotating speed is to be disperseed under 800r/min speed, low viscosity ester cyclammonium curing agent is added after being uniformly dispersed solvent-free primary coat is made Layer;Step 3:The preparation of static conductive floating coat:S1. low-viscosity (mobile) liquid epoxy resin is added in dispersion cylinder, then sequentially adds 12 to 14 carbon glycidol ethers, is surpassed Dispersant, modified single-walled carbon nanotube, disperseed in the case where mixer rotating speed is 2000r/min speed, adjusted after being uniformly dispersed Mixer rotating speed is that 200r/min stirrings 5-10min is de-gassed;S2. 325 mesh silica flours, phenmethylol are sequentially added in S1 systems, mixer rotating speed disperses under the conditions of being 1200r/min, It should ensure that a component has been uniformly dispersed when should be noted one component of every addition;S3. add aliphatic cyclic amine and static conductive floating coat is made;Step 4:The preparation of antistatic Self-leveling finishing coat:S1. low-viscosity (mobile) liquid epoxy resin is added in dispersion cylinder, 12 to 14 carbon glycidol ethers is then sequentially added, surpasses Dispersant, modified single-walled carbon nanotube, disperseed in the case where mixer rotating speed is 2000r/min speed, adjusted after being uniformly dispersed Mixer rotating speed is that 200r/min stirrings 5-10min is de-gassed;S2. 325 mesh silica flours, mill base, defoamer, levelling agent, phenmethylol are sequentially added in S1 systems, mixer rotating speed is Disperse under the conditions of 1200r/min, should ensure that a component has been uniformly dispersed when should be noted one component of every addition;S3. add low viscosity alicyclic ring amine hardener and antistatic Self-leveling finishing coat is made;Step 5:Basal plane processing;Step 6:Brush solvent-free priming coat;Step 7:Lay antistatic copper foil layer;Step 8:Scratch static conductive floating coat;Step 9:Polishing, dust suction;Step 10:Applied 1 time with antistatic Self-leveling finishing coat trowel.
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CN109608982A (en) * | 2018-11-28 | 2019-04-12 | 河北晨阳工贸集团有限公司 | A kind of novel solvent-free epoxy antistatic floor |
CN111334174A (en) * | 2020-04-27 | 2020-06-26 | 深圳市威尔地坪材料有限公司 | Terrace material and preparation method and application thereof |
CN111877690A (en) * | 2020-07-17 | 2020-11-03 | 石家庄超硕地坪工程有限公司 | Graphene anti-static terrace process |
CN114075401A (en) * | 2020-08-21 | 2022-02-22 | 住友橡胶工业株式会社 | High antistatic coating floor material and coating floor |
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CN109608982A (en) * | 2018-11-28 | 2019-04-12 | 河北晨阳工贸集团有限公司 | A kind of novel solvent-free epoxy antistatic floor |
CN111334174A (en) * | 2020-04-27 | 2020-06-26 | 深圳市威尔地坪材料有限公司 | Terrace material and preparation method and application thereof |
CN111877690A (en) * | 2020-07-17 | 2020-11-03 | 石家庄超硕地坪工程有限公司 | Graphene anti-static terrace process |
CN114075401A (en) * | 2020-08-21 | 2022-02-22 | 住友橡胶工业株式会社 | High antistatic coating floor material and coating floor |
JP2022053519A (en) * | 2020-09-24 | 2022-04-05 | アイカ工業株式会社 | Conductive floor coating material composition, construction method thereof, and conductive coated floor |
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