Anti-skid and abrasion-resistant coating for surface of ship deck and preparation method thereof
A technology for wear-resistant coatings and decking, which is applied in the direction of coatings, polyamide coatings, epoxy resin coatings, etc., can solve the problems that have not been popularized and applied on a large scale, and the product formula has not been published or reported, and achieves low cost, Good protective effect and simple preparation method
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Embodiment 1
[0014] Add 0.0002 parts of graphene, 0.001 parts of paeonol, 0.2 parts of carbon fiber powder, and 1 part of dibutyl phthalate to 30 parts of epoxy resin in sequence, stir and mix, and then obtain material A; 5 parts of titanium dioxide, 2.5 parts of silicon carbide, and 6 parts of polyamide were placed in a ball mill and milled to a particle size of 30-50 μm to obtain material B; material B was added to material A, and stirred at 45 ° C for 50 min at a rate of 500 rpm Mix it evenly, roll coat the surface of the ship deck to a thickness of 100-120 μm, and dry it to obtain a non-slip and wear-resistant coating.
Embodiment 2
[0016] Add 0.01 part of graphene, 0.006 part of paeonol, 0.6 part of carbon fiber powder, and 2.2 parts of dibutyl phthalate to 40 parts of epoxy resin in sequence, stir and mix, and then obtain material A; 12 parts of silicon dioxide , 6 parts of titanium dioxide, 3 parts of silicon carbide, and 8 parts of polyamide were put together in a ball mill and ball-milled to a particle size of 50-70 μm to obtain material B; material B was added to material A, and stirred at 50 ° C for 30 minutes at a rate of 800 rpm. Mix it evenly, roll coat the surface of the ship deck to a thickness of 1000 μm, and dry it to obtain a non-slip and wear-resistant coating.
Embodiment 3
[0018] Add 0.04 parts of graphene, 0.01 parts of paeonol, 0.8 parts of carbon fiber powder, and 2 parts of dibutyl phthalate to 50 parts of epoxy resin in sequence, stir and mix, and then obtain material A; Parts, 11 parts of titanium dioxide, 5.5 parts of silicon carbide, and 12 parts of polyamide were placed in a ball mill and milled to a particle size of 60-80 μm to obtain material B; add material B to material A and stir at 55 ° C at a rate of 600 rpm Mix it evenly for 40 minutes, roll coat the surface of the ship deck to a thickness of 2000 μm, and dry it to obtain a non-slip and wear-resistant coating.
[0019] The anti-slip and wear-resistant coating obtained in the above-mentioned Examples 1-3 was used as the friction test with 45 steel as the counter-wear material. The average friction coefficients of the system were 0.82, 0.86, and 0.84 respectively. Compared with before the coating, the wear rate after coating Respectively reduced by 85%, 76%, 81%, it can be seen th...
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