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An anti-icing and coating technology, applied in the direction of coating, etc., can solve the problems of loss of anti-icing, low cost, time-consuming, labor-intensive and energy-consuming, etc., achieve high anti-icing performance, simple construction, improve mechanical properties and The effect of wear resistance
Inactive Publication Date: 2015-02-11
QINGDAO YIQUN PANT GRP
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Abstract
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Problems solved by technology
[0002] The icing of roads, ships and other surfaces has brought huge potential safety hazards and hazards to the safety of people’s lives and property. Therefore, deicing is required. Common methods include mechanical methods, heating methods, and chemical methods, but some of these methods are time-consuming, labor-intensive and energy-intensive. , and some will cause environmental pollution, so the role of anti-icing materials is gradually prominent, the cost is low, and no special equipment is required
At present, the anti-icing materials on the market mainly use hydrophobic or super-hydrophobic surfaces to delay the solidification of water droplets, but with the extension of time and the decrease of temperature, the anti-icing effect will often be lost
Method used
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Embodiment 1
[0013] Embodiment 1: a kind of anti-icing coating, by weight, is made up of following components:
[0014] Powdered acrylic resin 40%, diatomaceous earth nanoparticles 10%, carbon black nanoparticles 10%, isocyanate 20%, titanium dioxide 10%, sodium hexametaphosphate 5%, silicone defoamer 5%. The above raw materials are mixed and stirred evenly, and then put into an extruder, melted and extruded, extruded by a roller to form a 2mm sheet, then crushed by a crusher, ground by a nano grinder, and classified and screened to obtain a nano-scale anti-icing coating.
Embodiment 2
[0015] Embodiment 2: a kind of anti-icing paint, by weight, is made up of following components:
[0016] Powdered acrylic resin 50%, diatomaceous earth nanoparticles 10%, carbon black nanoparticles 5%, isocyanate 15%, titanium dioxide 10%, sodium hexametaphosphate 5%, silicone defoamer 5%. The above raw materials are mixed and stirred evenly, and then put into an extruder, melted and extruded, extruded by a roller to form a 2mm sheet, then crushed by a crusher, ground by a nano grinder, and classified and screened to obtain a nano-scale anti-icing coating.
Embodiment 3
[0017] Embodiment 3: a kind of anti-icing coating, by weight, is made up of following components:
[0018] Powdered acrylic resin 45%, diatomaceous earth nanoparticles 8%, carbon black nanoparticles 7%, isocyanate 20%, titanium dioxide 10%, sodium hexametaphosphate 5%, silicone defoamer 5%. The above raw materials are mixed and stirred evenly, and then put into an extruder, melted and extruded, extruded by a roller to form a 2mm sheet, then crushed by a crusher, ground by a nano grinder, and classified and screened to obtain a nano-scale anti-icing coating.
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Abstract
The invention discloses an anti-icing paint comprising, by weight, 35-50% of a powdery film-forming substance, 5-20% of inorganic nano-particles, 10-20% of a curing agent, 5-10% of titanium dioxide, 3-5% of a dispersing agent, and 3-5% of a de-foaming agent. The above raw materials are mixed and uniformly mixed by stirring; the obtained mixture is added into an extruder and is subjected to melt extrusion; the obtained material is pressed into a thin sheet with a thickness of 2mm through roller compression; the material is crushed by using a crusher, and is ground by using a nano-scale grinder; and graded screening is carried out, such that the nano-grade anti-icing paint is obtained. The paint is green and environment-friendly, and has the advantages of high anti-icing performance and easy construction. With the addition of the rigid inorganic nano-particles, paint mechanical performance and wear resistance are improved.
Description
technical field [0001] The invention relates to an anti-icing paint, in particular to a nanometer anti-icing paint. Background technique [0002] The icing of roads, ships and other surfaces has brought huge potential safety hazards and hazards to the safety of people’s lives and property. Therefore, deicing is required. Common methods include mechanical methods, heating methods, and chemical methods, but some of these methods are time-consuming, labor-intensive and energy-intensive. , and some will cause environmental pollution, so the role of anti-icing materials is gradually prominent, the cost is low, and no special equipment is required. At present, the anti-icing materials on the market mainly use hydrophobic or super-hydrophobic surfaces to delay the solidification of water droplets, but with the extension of time and the decrease of temperature, the anti-icing effect will often be lost. Contents of the invention [0003] The object of the present invention is to s...
Claims
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Application Information
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