A fireproof coating for lithium-ion power battery pack and preparation method thereof
A technology for power battery packs and fireproof coatings, applied in fireproof coatings, coatings, etc., can solve problems such as battery pack combustion and accidents, achieve stable performance, easy operation, and improve safety performance
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Embodiment 1
[0033] A fireproof coating for lithium-ion power battery packs, comprising the following composition by weight percentage:
[0035] Modified amino resin 5%
[0036] Titanium dioxide 4%
[0037] Dimethyl phthalate 2%
[0038] Dimethylaniline 1%
[0039] Oxychloroethylene 3%
[0040] Solvent 30%.
[0041] The solvent is one or more of deionized water, methanol, propanol, n-butanol, ethylene glycol, isopropanol, acetone, petroleum ether, tetrahydrofuran, ethyl acetate, and butyl acetate.
[0042] The preparation method of this fireproof coating comprises the following steps:
[0043] Step 1: Weigh sodium phosphate, titanium dioxide, and modified amino resin into the reaction kettle according to the proportion, add an appropriate amount of solvent, heat up to 60°C, and stir for 40 minutes to obtain mixture A; Step 2: Weigh o-benzene according to the proportion Dimethyl diformate is added to the mixture obtained in step 1, stirred evenly, and th...
Embodiment 2
[0045] A fireproof coating for lithium-ion power battery packs, comprising the following composition by weight percentage:
[0047] Modified amino resin 5%
[0048] Titanium dioxide 4%
[0049] Dimethyl phthalate 2%
[0050] Dimethylaniline 1%
[0051] Oxychloroethylene 3%
[0052] Solvent 30%
[0053] Borate 5%.
[0054] The solvent is one or more of deionized water, methanol, propanol, n-butanol, ethylene glycol, isopropanol, acetone, petroleum ether, tetrahydrofuran, ethyl acetate, and butyl acetate.
[0055] The borate is at least one of aluminum borate, zinc borate, sodium borate and ammonium borate.
[0056] The preparation method of this fireproof coating comprises the following steps:
[0057] Step 1: Weigh sodium phosphate, borate, titanium dioxide, and modified amino resin into the reaction kettle according to the proportion, add an appropriate amount of solvent, heat up to 90°C, and stir for 20 minutes to obtain mixture A; Step ...
Embodiment 3
[0059] A fireproof coating for lithium-ion power battery packs, comprising the following composition by weight percentage:
[0061]Modified amino resin 5%
[0062] Titanium dioxide 4%
[0063] Dimethyl phthalate 2%
[0064] Dimethylaniline 1%
[0065] Oxychloroethylene 3%
[0066] Solvent 30%
[0068] The solvent is one or more of deionized water, methanol, propanol, n-butanol, ethylene glycol, isopropanol, acetone, petroleum ether, tetrahydrofuran, ethyl acetate, and butyl acetate.
[0069] The anhydrous sulfite is at least one of anhydrous sodium sulfite, anhydrous potassium sulfite and anhydrous magnesium sulfite.
[0070] The preparation method of this fireproof coating comprises the following steps:
[0071] Step 1: Weigh sodium phosphate, anhydrous sulfite, titanium dioxide, and modified amino resin into the reaction kettle according to the proportion, add an appropriate amount of solvent, heat up to 70...
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