Plant type composite efficient corrosion inhibitor as well as preparation method and application thereof
A plant-based, corrosion inhibitor technology, applied in chemical instruments and methods, and other chemical processes, can solve the problems of no reference to the corrosion inhibition effect of plants and concrete, low efficiency of extracting active ingredients, and high cost
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Embodiment 1
[0027] A plant-type composite high-efficiency corrosion inhibitor, made of the following raw materials in mass percentage: 65.7% of plants, 7.9% of sodium molybdate, 5.3% of sodium gluconate, 10.5% of sodium tartrate, 5.3% of zinc sulfate and 5.3% of potassium dihydrogen phosphate %; The plant is dry kelp.
[0028] The preparation method of plant-type composite high-efficiency corrosion inhibitor described in the present embodiment comprises the following steps:
[0029] (1) Under normal temperature and dry environment, crush the plant with a universal crusher to a size below 80 μm to obtain plant powder;
[0030] (2) Prepare raw materials according to the proportion, add sodium molybdate, sodium gluconate, sodium tartrate, zinc sulfate and potassium dihydrogen phosphate to the plant powder described in step (1), grind to below 80 μm, and form a powdery plant type Composite high-efficiency corrosion inhibitor.
[0031] The application of the plant-type composite high-efficie...
Embodiment 2
[0033]A plant-type composite high-efficiency corrosion inhibitor, made of the following raw materials in mass percentage: 56.82% of plants, 6.82% of sodium molybdate, 4.55% of sodium gluconate, 9.09% of sodium tartrate, 4.54% of zinc sulfate and 18.18% of potassium dihydrogen phosphate %; The plant is dry kelp.
[0034] The preparation method of plant-type composite high-efficiency corrosion inhibitor described in the present embodiment comprises the following steps:
[0035] (1) Under normal temperature and dry environment, crush the plant with a universal crusher to a size below 80 μm to obtain plant powder;
[0036] (2) Prepare raw materials according to the proportion, add sodium molybdate, sodium gluconate, sodium tartrate, zinc sulfate and potassium dihydrogen phosphate to the plant powder described in step (1), grind to below 80 μm, and form a powdery plant type Composite high-efficiency corrosion inhibitor.
[0037] The application of the plant-type composite high-ef...
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