CN112442901A - Corrosion-resistant heat-insulating tarpaulin material and production method thereof - Google Patents
Corrosion-resistant heat-insulating tarpaulin material and production method thereof Download PDFInfo
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- CN112442901A CN112442901A CN202011083836.4A CN202011083836A CN112442901A CN 112442901 A CN112442901 A CN 112442901A CN 202011083836 A CN202011083836 A CN 202011083836A CN 112442901 A CN112442901 A CN 112442901A
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- D06N3/00—Artificial leather, oilcloth or other material obtained by covering fibrous webs with macromolecular material, e.g. resins, rubber or derivatives thereof
- D06N3/0002—Artificial leather, oilcloth or other material obtained by covering fibrous webs with macromolecular material, e.g. resins, rubber or derivatives thereof characterised by the substrate
- D06N3/0006—Artificial leather, oilcloth or other material obtained by covering fibrous webs with macromolecular material, e.g. resins, rubber or derivatives thereof characterised by the substrate using woven fabrics
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- D01F8/00—Conjugated, i.e. bi- or multicomponent, artificial filaments or the like; Manufacture thereof
- D01F8/02—Conjugated, i.e. bi- or multicomponent, artificial filaments or the like; Manufacture thereof from cellulose, cellulose derivatives, or proteins
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- D01F8/00—Conjugated, i.e. bi- or multicomponent, artificial filaments or the like; Manufacture thereof
- D01F8/04—Conjugated, i.e. bi- or multicomponent, artificial filaments or the like; Manufacture thereof from synthetic polymers
- D01F8/06—Conjugated, i.e. bi- or multicomponent, artificial filaments or the like; Manufacture thereof from synthetic polymers with at least one polyolefin as constituent
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- D01F8/00—Conjugated, i.e. bi- or multicomponent, artificial filaments or the like; Manufacture thereof
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- D06N3/06—Artificial leather, oilcloth or other material obtained by covering fibrous webs with macromolecular material, e.g. resins, rubber or derivatives thereof with macromolecular compounds obtained by reactions only involving carbon-to-carbon unsaturated bonds with polyvinylchloride or its copolymerisation products
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Abstract
The invention discloses a corrosion-resistant heat-insulating tarpaulin material and a production method thereof, the tarpaulin material comprises flax fibers, polyester fibers, bamboo fibers, polypropylene fibers, charcoal fibers, resin powder, polyethylene glycol oleate, propylene oxide, reflective fillers, flame retardants, filling solvents, light-heat stabilizers, environment-friendly plasticizers, wear-resistant agents, ultraviolet-resistant agents, sodium hydroxide, anhydrous auxiliaries, antioxidants, aluminum oxide, diatomite, deionized water and nano titanium dioxide, the tarpaulin material adopts a plurality of fibers to be woven in a warp and weft manner as a basic layer, the connection performance of the tarpaulin is improved, the phenomenon of fracture does not occur, the service life is prolonged, the waterproof performance and the wear-resistant and corrosion-resistant performance are improved, protective layers are coated on the front and back surfaces of the basic layer, the protective layers have high reflection performance, heat-insulating and flame-resistant performance, ultraviolet irradiation resistance and high waterproof and corrosion-resistant performance, the wear resistance is also improved, the service life of the tarpaulin is prolonged, and the production process is simple.
Description
Technical Field
The invention relates to the field of tarpaulin materials, in particular to a corrosion-resistant heat-insulating tarpaulin material and a production method thereof.
Background
Tarpaulin (or called as waterproof cloth) is a waterproof material with high strength, good toughness and softness, and is often used as canvas (canvas), polyester with polyurethane coating or made into polyethylene plastics. Tarpaulins are usually provided with strong grommets at the corners or edges to facilitate lashing, hanging or covering. Tarpaulin uses very extensively in the life, and the function of tarpaulin is also many, but current tarpaulin material is more single, often selects ordinary fibre and auxiliary agent to make, and not only the stability can be poor, and the connectivity is poor, and the reflectivity, waterproof performance, heat-proof quality, fire behavior and wear resistance can not all be ensured, and the life of whole tarpaulin is low, and the phenomenon that splits often can appear, and anti ultraviolet performance is poor, is not convenient for people to use.
Disclosure of Invention
The invention aims to solve the problems of the prior art by providing a corrosion-resistant heat-insulating tarpaulin material and a production method thereof.
In order to achieve the purpose, the invention provides the following technical scheme: a corrosion-resistant heat-insulating tarpaulin material comprises flax fibers, polyester fibers, bamboo fibers, polypropylene fibers, charcoal fibers, resin powder, polyethylene glycol oleate, propylene oxide, reflective fillers, flame retardants, filling solvents, light and heat stabilizers, environment-friendly plasticizers, wear-resistant agents, ultraviolet-resistant agents, sodium hydroxide, anhydrous auxiliary agents, antioxidants, aluminum oxide, diatomite, deionized water and nano titanium dioxide, wherein 10-15 parts of the flax fibers, 10-15 parts of the polyester fibers, 10-15 parts of the bamboo fibers, 10-15 parts of the polypropylene fibers, 10-15 parts of the charcoal fibers, 5-10 parts of the resin powder, 3-6 parts of polyethylene glycol oleate, 4-8 parts of propylene oxide, 5-7 parts of the reflective fillers, 3-5 parts of the flame retardants, 4-6 parts of filling solvents, 3-5 parts of the light and heat stabilizers, 3-5 parts of the flame retardants, and, 5-8 parts of environment-friendly plasticizer, 3-5 parts of wear-resisting agent, 3-6 parts of ultraviolet-proof agent, 2-4 parts of sodium hydroxide, 5-8 parts of anhydrous auxiliary agent, 2-6 parts of antioxidant, 3-5 parts of alumina, 3-7 parts of diatomite, 5-10 parts of deionized water and 4-8 parts of nano titanium dioxide.
As a preferable technical scheme of the invention, the polyester fiber is anion polyester fiber and contains 1-3 wt% of ceramic powder, and the ceramic powder comprises 20-40 parts of zirconium titanate, 10-20 parts of silicon carbide and 30-40 parts of titanium carbide.
As a preferred technical scheme of the invention, the reflective filler is infrared reflection type titanium dioxide.
As a preferred technical scheme, the ultraviolet inhibitor is composed of 8-12 parts of nano titanium dioxide, 10-15 parts of nano zinc oxide, 100 parts of deionized water, 20-30 parts of acrylic acid and 2-4 parts of initiator potassium persulfate.
In a preferred embodiment of the present invention, the filling solvent is any one of toluene and xylene.
As a preferred technical scheme of the invention, the photo-thermal stabilizer is an organic-inorganic composite photo-thermal stabilizer prepared by putting BP-4 and LDH subjected to roasting pretreatment into a reactor according to a proportion, adding water to prepare an aqueous solution, carrying out anion exchange reaction to prepare an organic-inorganic composite, and carrying out coupling and ultrasonic treatment on the composite.
In a preferred embodiment of the present invention, the environmentally friendly plasticizer is composed of polyvinyl chloride, dipentaerythritol, polyethylene glycol, acetalized polyvinyl alcohol, and trimethylene ether.
A production method of a corrosion-resistant heat-insulating tarpaulin material comprises the following specific steps:
the method comprises the following steps: fully mixing flax fibers, polyester fibers, bamboo fibers, polypropylene fibers and charcoal fibers according to a ratio, grinding and crushing the mixture by a grinder, adding resin powder, polyethylene glycol oleate, anhydrous auxiliary agents and deionized water, stirring the mixture to obtain a fiber mixture, and performing cross weaving in the warp direction and the weft direction by a loom to form a composite base layer;
step two: then mixing the epoxy propane, the reflective filler, the flame retardant, the filling solvent, the light-heat stabilizer, the environment-friendly plasticizer, the wear-resistant agent, the ultraviolet-proof agent, the sodium hydroxide, the antioxidant, the alumina, the diatomite and the nano titanium dioxide according to a proportion, putting the mixture into a reaction kettle, heating to the temperature of 120-140 ℃, setting the rotating speed at 600-700r/min, and stirring for 30-40 minutes to obtain a coating;
step three: uniformly brushing the brushing paint on the front side and the back side of the composite base layer, wherein the thickness is 1-3 mm; then drying at the temperature of 150-;
step four: the method comprises the following steps of carrying out surface treatment on a tarpaulin material, cutting according to the size, then packaging, spraying paint on the front and back surfaces of the tarpaulin material according to tarpaulins with different performances, and then carrying out hot press forming to obtain the formed tarpaulin.
The invention has the beneficial effects that: this tarpaulin material adopts a plurality of fibre to carry out the longitude and latitude and weaves as the basic unit, improve the connection performance of tarpaulin, cracked phenomenon can not appear, and also improve life, waterproof performance and wear-resisting corrosion resisting property, brush the protective layer with a brush at the positive and negative on basic unit's layer, the protective layer has high-strength reflective property, thermal-insulated fire behaviour has, can also ultraviolet radiation protection, waterproof corrosion resisting property has high-strength, wear resisting property has also been increased, improve tarpaulin in life, production process is simple, also can carry out the material of compound more functions on the basis of this material according to the demand, the flexibility is strong, it uses to be convenient for people.
Detailed Description
The following detailed description of the preferred embodiments of the present invention is provided to enable those skilled in the art to more readily understand the advantages and features of the present invention and to clearly define the scope of the invention.
The invention provides a technical scheme that: a corrosion-resistant heat-insulating tarpaulin material comprises flax fibers, polyester fibers, bamboo fibers, polypropylene fibers, charcoal fibers, resin powder, polyethylene glycol oleate, propylene oxide, reflective fillers, flame retardants, filling solvents, light-heat stabilizers, environment-friendly plasticizers, wear-resistant agents, ultraviolet-resistant agents, sodium hydroxide, anhydrous auxiliaries, antioxidants, aluminum oxide, diatomite, deionized water and nano titanium dioxide;
10-15 parts of flax fiber, 10-15 parts of polyester fiber, 10-15 parts of bamboo fiber, 10-15 parts of polypropylene fiber, 10-15 parts of charcoal fiber, 5-10 parts of resin powder, 3-6 parts of oleic acid polyethylene glycol ester, 4-8 parts of propylene oxide, 5-7 parts of reflective filler, 3-5 parts of flame retardant, 4-6 parts of filling solvent, 3-5 parts of light-heat stabilizer, 5-8 parts of environment-friendly plasticizer, 3-5 parts of wear-resisting agent, 3-6 parts of ultraviolet-proof agent, 2-4 parts of sodium hydroxide, 5-8 parts of anhydrous auxiliary agent, 2-6 parts of antioxidant, 3-5 parts of aluminum oxide, 3-7 parts of diatomite, 5-10 parts of deionized water and 4-8 parts of nano titanium dioxide.
The polyester fiber is anion polyester fiber and contains 1-3 wt% of ceramic powder, wherein the ceramic powder comprises 20-40 parts of zirconium titanate, 10-20 parts of silicon carbide and 30-40 parts of titanium carbide; the reflective filler is infrared reflective titanium dioxide; the ultraviolet-proof agent consists of 8-12 parts of nano titanium dioxide, 10-15 parts of nano zinc oxide, 100 parts of deionized water, 20-30 parts of acrylic acid and 2-4 parts of initiator potassium persulfate; the filling solvent is any one of toluene or xylene; the photo-thermal stabilizer is prepared by putting BP-4 and LDH subjected to roasting pretreatment into a reactor according to a proportion, adding water to prepare an aqueous solution, carrying out anion exchange reaction to prepare an organic-inorganic compound, and carrying out coupling and ultrasonic treatment on the compound to prepare the organic-inorganic compound photo-thermal stabilizer; the environment-friendly plasticizer is composed of polyvinyl chloride, dipentaerythritol, polyethylene glycol, acetalized polyvinyl alcohol and trimethylene ether.
A production method of a corrosion-resistant heat-insulating tarpaulin material comprises the following specific steps:
the method comprises the following steps: fully mixing flax fibers, polyester fibers, bamboo fibers, polypropylene fibers and charcoal fibers according to a ratio, grinding and crushing the mixture by a grinder, adding resin powder, polyethylene glycol oleate, anhydrous auxiliary agents and deionized water, stirring the mixture to obtain a fiber mixture, and performing cross weaving in the warp direction and the weft direction by a loom to form a composite base layer;
step two: then mixing the epoxy propane, the reflective filler, the flame retardant, the filling solvent, the light-heat stabilizer, the environment-friendly plasticizer, the wear-resistant agent, the ultraviolet-proof agent, the sodium hydroxide, the antioxidant, the alumina, the diatomite and the nano titanium dioxide according to a proportion, putting the mixture into a reaction kettle, heating to the temperature of 120-140 ℃, setting the rotating speed at 600-700r/min, and stirring for 30-40 minutes to obtain a coating;
step three: uniformly brushing the brushing paint on the front side and the back side of the composite base layer, wherein the thickness is 1-3 mm; then drying at the temperature of 150-;
step four: the method comprises the following steps of carrying out surface treatment on a tarpaulin material, cutting according to the size, then packaging, spraying paint on the front and back surfaces of the tarpaulin material according to tarpaulins with different performances, and then carrying out hot press forming to obtain the formed tarpaulin.
Example 1:
the formula and the proportion thereof are as follows:
10 parts of flax fiber, 10 parts of polyester fiber, 10 parts of bamboo fiber, 10 parts of polypropylene fiber, 10 parts of charcoal fiber, 5 parts of resin powder, 3 parts of oleic acid polyethylene glycol ester, 4 parts of propylene oxide, 5 parts of reflective filler, 3 parts of flame retardant, 4 parts of filling solvent, 3 parts of light-heat stabilizer, 5 parts of environment-friendly plasticizer, 3 parts of wear-resisting agent, 3 parts of ultraviolet-proof agent, 2 parts of sodium hydroxide, 5 parts of anhydrous auxiliary agent, 2 parts of antioxidant, 3 parts of aluminum oxide, 3 parts of diatomite, 5 parts of deionized water and 4 parts of nano titanium dioxide;
the method comprises the following specific steps:
the method comprises the following steps: fully mixing flax fibers, polyester fibers, bamboo fibers, polypropylene fibers and charcoal fibers according to a ratio, grinding and crushing the mixture by a grinder, adding resin powder, polyethylene glycol oleate, anhydrous auxiliary agents and deionized water, stirring the mixture to obtain a fiber mixture, and performing cross weaving in the warp direction and the weft direction by a loom to form a composite base layer;
step two: then mixing the epoxy propane, the reflective filler, the flame retardant, the filling solvent, the light-heat stabilizer, the environment-friendly plasticizer, the wear-resistant agent, the ultraviolet-proof agent, the sodium hydroxide, the antioxidant, the alumina, the diatomite and the nano titanium dioxide according to a proportion, putting the mixture into a reaction kettle, heating to the temperature of 120-140 ℃, setting the rotating speed at 600-700r/min, and stirring for 30-40 minutes to obtain a coating;
step three: uniformly brushing the brushing paint on the front side and the back side of the composite base layer, wherein the thickness is 1-3 mm; then drying at the temperature of 150-;
step four: the method comprises the following steps of carrying out surface treatment on a tarpaulin material, cutting according to the size, then packaging, spraying paint on the front and back surfaces of the tarpaulin material according to tarpaulins with different performances, and then carrying out hot press forming to obtain the formed tarpaulin.
Example 2:
13 parts of flax fiber, 13 parts of polyester fiber, 13 parts of bamboo fiber, 13 parts of polypropylene fiber, 13 parts of charcoal fiber, 8 parts of resin powder, 5 parts of oleic acid polyethylene glycol ester, 5 parts of propylene oxide, 6 parts of reflective filler, 4 parts of flame retardant, 5 parts of filling solvent, 4 parts of photo-thermal stabilizer, 6 parts of environment-friendly plasticizer, 4 parts of wear-resisting agent, 5 parts of ultraviolet-proof agent, 3 parts of sodium hydroxide, 6 parts of anhydrous auxiliary agent, 5 parts of antioxidant, 4 parts of aluminum oxide, 5 parts of diatomite, 8 parts of deionized water and 6 parts of nano titanium dioxide;
the method comprises the following specific steps:
the method comprises the following steps: fully mixing flax fibers, polyester fibers, bamboo fibers, polypropylene fibers and charcoal fibers according to a ratio, grinding and crushing the mixture by a grinder, adding resin powder, polyethylene glycol oleate, anhydrous auxiliary agents and deionized water, stirring the mixture to obtain a fiber mixture, and performing cross weaving in the warp direction and the weft direction by a loom to form a composite base layer;
step two: then mixing the epoxy propane, the reflective filler, the flame retardant, the filling solvent, the light-heat stabilizer, the environment-friendly plasticizer, the wear-resistant agent, the ultraviolet-proof agent, the sodium hydroxide, the antioxidant, the alumina, the diatomite and the nano titanium dioxide according to a proportion, putting the mixture into a reaction kettle, heating to the temperature of 120-140 ℃, setting the rotating speed at 600-700r/min, and stirring for 30-40 minutes to obtain a coating;
step three: uniformly brushing the brushing paint on the front side and the back side of the composite base layer, wherein the thickness is 1-3 mm; then drying at the temperature of 150-;
step four: the method comprises the following steps of carrying out surface treatment on a tarpaulin material, cutting according to the size, then packaging, spraying paint on the front and back surfaces of the tarpaulin material according to tarpaulins with different performances, and then carrying out hot press forming to obtain the formed tarpaulin.
Example 3:
the formula and the proportion thereof are as follows:
15 parts of flax fiber, 15 parts of polyester fiber, 15 parts of bamboo fiber, 15 parts of polypropylene fiber, 15 parts of charcoal fiber, 10 parts of resin powder, 6 parts of oleic acid polyethylene glycol ester, 8 parts of propylene oxide, 7 parts of reflective filler, 5 parts of flame retardant, 6 parts of filling solvent, 5 parts of light-heat stabilizer, 8 parts of environment-friendly plasticizer, 5 parts of wear-resisting agent, 6 parts of ultraviolet-proof agent, 4 parts of sodium hydroxide, 8 parts of anhydrous auxiliary agent, 6 parts of antioxidant, 5 parts of aluminum oxide, 7 parts of diatomite, 10 parts of deionized water and 8 parts of nano titanium dioxide;
the method comprises the following specific steps:
the method comprises the following steps: fully mixing flax fibers, polyester fibers, bamboo fibers, polypropylene fibers and charcoal fibers according to a ratio, grinding and crushing the mixture by a grinder, adding resin powder, polyethylene glycol oleate, anhydrous auxiliary agents and deionized water, stirring the mixture to obtain a fiber mixture, and performing cross weaving in the warp direction and the weft direction by a loom to form a composite base layer;
step two: then mixing the epoxy propane, the reflective filler, the flame retardant, the filling solvent, the light-heat stabilizer, the environment-friendly plasticizer, the wear-resistant agent, the ultraviolet-proof agent, the sodium hydroxide, the antioxidant, the alumina, the diatomite and the nano titanium dioxide according to a proportion, putting the mixture into a reaction kettle, heating to the temperature of 120-140 ℃, setting the rotating speed at 600-700r/min, and stirring for 30-40 minutes to obtain a coating;
step three: uniformly brushing the brushing paint on the front side and the back side of the composite base layer, wherein the thickness is 1-3 mm; then drying at the temperature of 150-;
step four: the method comprises the following steps of carrying out surface treatment on a tarpaulin material, cutting according to the size, then packaging, spraying paint on the front and back surfaces of the tarpaulin material according to tarpaulins with different performances, and then carrying out hot press forming to obtain the formed tarpaulin.
Taking 100 tarpaulin materials on the market as samples, detecting the performances of the tarpaulin materials and averaging the tarpaulin materials;
this tarpaulin material adopts a plurality of fibre to carry out the longitude and latitude and weaves as the basic unit, improve the connection performance of tarpaulin, cracked phenomenon can not appear, and also improve life, waterproof performance and wear-resisting corrosion resisting property, brush the protective layer with a brush at the positive and negative on basic unit's layer, the protective layer has high-strength reflective property, thermal-insulated fire behaviour has, can also ultraviolet radiation protection, waterproof corrosion resisting property has high-strength, wear resisting property has also been increased, improve tarpaulin in life, production process is simple, also can carry out the material of compound more functions on the basis of this material according to the demand, the flexibility is strong, it uses to be convenient for people.
The examples merely represent several embodiments of the present invention, which are described in more detail and detail, but are not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.
Claims (8)
1. The utility model provides a corrosion-resistant thermal-insulated tarpaulin material, includes flax fiber, polyester fiber, bamboo fiber, polypropylene fiber, charcoal fiber, resin powder, oleic acid polyethylene glycol ester, epoxypropane, reflection filler, fire retardant, filling solvent, light heat stabilizer, environmental protection plasticizer, wear resistant agent, anti ultraviolet agent, sodium hydroxide, anhydrous auxiliary agent, antioxidant, aluminium oxide, diatomaceous earth, deionized water and nanometer titanium dioxide, its characterized in that: 10-15 parts of flax fiber, 10-15 parts of polyester fiber, 10-15 parts of bamboo fiber, 10-15 parts of polypropylene fiber, 10-15 parts of charcoal fiber, 5-10 parts of resin powder, 3-6 parts of oleic acid polyethylene glycol ester, 4-8 parts of propylene oxide, 5-7 parts of reflective filler, 3-5 parts of flame retardant, 4-6 parts of filling solvent, 3-5 parts of light-heat stabilizer, 5-8 parts of environment-friendly plasticizer, 3-5 parts of wear-resisting agent, 3-6 parts of ultraviolet-proof agent, 2-4 parts of sodium hydroxide, 5-8 parts of anhydrous auxiliary agent, 2-6 parts of antioxidant, 3-5 parts of aluminum oxide, 3-7 parts of diatomite, 5-10 parts of deionized water and 4-8 parts of nano titanium dioxide.
2. A corrosion resistant, thermally insulating tarpaulin material of claim 1, wherein: the polyester fiber is anion polyester fiber and contains 1-3 wt% of ceramic powder, wherein the ceramic powder comprises 20-40 parts of zirconium titanate, 10-20 parts of silicon carbide and 30-40 parts of titanium carbide.
3. A corrosion resistant, thermally insulating tarpaulin material of claim 1, wherein: the reflective filler is infrared reflection type titanium dioxide.
4. A corrosion resistant, thermally insulating tarpaulin material of claim 1, wherein: the ultraviolet-proof agent is composed of 8-12 parts of nano titanium dioxide, 10-15 parts of nano zinc oxide, 100 parts of deionized water, 20-30 parts of acrylic acid and 2-4 parts of initiator potassium persulfate.
5. A corrosion resistant, thermally insulating tarpaulin material of claim 1, wherein: the filling solvent is any one of toluene or xylene.
6. A corrosion resistant, thermally insulating tarpaulin material of claim 1, wherein: the photo-thermal stabilizer is prepared by putting BP-4 and LDH subjected to roasting pretreatment into a reactor according to a proportion, adding water to prepare an aqueous solution, carrying out anion exchange reaction to prepare an organic-inorganic compound, and carrying out coupling and ultrasonic treatment on the compound to prepare the organic-inorganic compound photo-thermal stabilizer.
7. A corrosion resistant, thermally insulating tarpaulin material of claim 1, wherein: the environment-friendly plasticizer is composed of polyvinyl chloride, dipentaerythritol, polyethylene glycol, acetalized polyvinyl alcohol and trimethylene ether.
8. A method for producing a corrosion-resistant heat-insulating tarpaulin material of claim 1, wherein: the method comprises the following specific steps:
the method comprises the following steps: fully mixing flax fibers, polyester fibers, bamboo fibers, polypropylene fibers and charcoal fibers according to a ratio, grinding and crushing the mixture by a grinder, adding resin powder, polyethylene glycol oleate, anhydrous auxiliary agents and deionized water, stirring the mixture to obtain a fiber mixture, and performing cross weaving in the warp direction and the weft direction by a loom to form a composite base layer;
step two: then mixing the epoxy propane, the reflective filler, the flame retardant, the filling solvent, the light-heat stabilizer, the environment-friendly plasticizer, the wear-resistant agent, the ultraviolet-proof agent, the sodium hydroxide, the antioxidant, the alumina, the diatomite and the nano titanium dioxide according to a proportion, putting the mixture into a reaction kettle, heating to the temperature of 120-140 ℃, setting the rotating speed at 600-700r/min, and stirring for 30-40 minutes to obtain a coating;
step three: uniformly brushing the brushing paint on the front side and the back side of the composite base layer, wherein the thickness is 1-3 mm; then drying at the temperature of 150-;
step four: the method comprises the following steps of carrying out surface treatment on a tarpaulin material, cutting according to the size, then packaging, spraying paint on the front and back surfaces of the tarpaulin material according to tarpaulins with different performances, and then carrying out hot press forming to obtain the formed tarpaulin.
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CN114541152A (en) * | 2022-03-01 | 2022-05-27 | 山东永利新材料有限公司 | Corrosion-resistant anti-aging tarpaulin and preparation process thereof |
CN114988747A (en) * | 2022-06-27 | 2022-09-02 | 扬州工业职业技术学院 | Dispersing agent for fiber foam concrete |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN114541152A (en) * | 2022-03-01 | 2022-05-27 | 山东永利新材料有限公司 | Corrosion-resistant anti-aging tarpaulin and preparation process thereof |
CN114988747A (en) * | 2022-06-27 | 2022-09-02 | 扬州工业职业技术学院 | Dispersing agent for fiber foam concrete |
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