Oil-water separation structure with super-hydrophobic/super-oleophylic performance as well as preparation method and application of oil-water separation structure
A technology of oil-water separation and super-oleophilicity, which is applied in separation methods, immiscible liquid separation, liquid separation, etc., can solve the problems of insufficient mechanical strength and durability, complicated preparation process, and low material adhesion, and achieve good super-hydrophobicity / Effect of super lipophilicity and simple preparation method
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Embodiment 1
[0065] A preparation method for nano superhydrophobic paint additive, comprising the following steps:
[0066] Step 1, 10 mg of nanomaterials and 10 mL of solvent are ultrasonically mixed for 8 minutes to obtain solution A, wherein the concentration of nanomaterials in solution A is 1 mg / mL, the nanomaterials are carbon nanotubes, and the solvent is dimethyl sulfoxide;
[0067] Step 2, add catalyst and low surface energy coupling agent to solution A, obtain solution B, use magnetic stirrer to stir solution B for 80min to stir evenly, obtain product C, wherein, catalyst is acetic acid, low surface energy coupling agent is methyltriethoxysilane, the ratio of the mass fraction of the nanomaterial, the volume fraction of the catalyst, and the volume fraction of the low surface energy coupling agent is 500:0.1:10;
[0068] In step 3, the product C is subjected to solid-liquid separation, and the obtained solid is a nano-superhydrophobic coating additive, and the solid-liquid separa...
Embodiment 2
[0084] A preparation method for nano superhydrophobic paint additive, comprising the following steps:
[0085] Step 1, 100 mg of nanomaterials and 100 mL of solvent are ultrasonically mixed for 10 minutes to obtain solution A, wherein the concentration of nanomaterials in solution A is 1 mg / mL, the nanomaterials are carbon nanotubes, and the solvent is dimethyl sulfoxide;
[0086] Step 2, add catalyst and low surface energy coupling agent to solution A, obtain solution B, use magnetic stirrer to stir solution B for 80min until stirring evenly, obtain product C, wherein, catalyst is hydrochloric acid, low surface energy coupling agent is methyltrichlorosilane, the ratio of the mass fraction of the nanomaterial, the volume fraction of the catalyst, and the volume fraction of the low surface energy coupling agent is 500:0.5:10;
[0087] Step 3, solid-liquid separation is carried out to the product C, and the obtained solid is a nano-superhydrophobic coating additive, and the meth...
Embodiment 3
[0092] A preparation method for nano superhydrophobic paint additive, comprising the following steps:
[0093] Step 1, 10 mg of nanomaterials and 10 mL of solvent are ultrasonically mixed for 8 minutes to obtain solution A, wherein the concentration of nanomaterials in solution A is 1 mg / mL, and the nanomaterials are SiO 2 , the solvent is xylene;
[0094] Step 2, add catalyst and low surface energy coupling agent to solution A, obtain solution B, use magnetic stirrer to stir solution B for 80min until stirring evenly, obtain product C, wherein, catalyst is hydrochloric acid, low surface energy coupling agent It is dodecyltrimethoxysilane, and the ratio of the mass fraction of the nanomaterial, the volume fraction of the catalyst, and the volume fraction of the low surface energy coupling agent is 500:1:10;
[0095] In step 3, the product C is subjected to solid-liquid separation, and the obtained solid is a nano-superhydrophobic coating additive, and the solid-liquid separat...
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