Fe-Ni solid solution-Mn doped ZnO electromagnetic shielding composite material and preparation method thereof
A technology of electromagnetic shielding and composite materials, applied in magnetic field/electric field shielding, nanotechnology for materials and surface science, electrical components, etc., can solve the problem of low electromagnetic impedance and magnetic loss of zinc oxide, and poor wave absorption effect of electromagnetic shielding materials Good, poor electromagnetic wave absorption ability, etc., to achieve the effect of increasing the magnetic loss rate and absorbing performance, increasing the impedance matching performance, and reducing the conductivity
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Embodiment 1
[0029] (1) Preparation of nano-Fe-Ni solid solution: Add 1000 mL of distilled water to the reaction flask, place the reaction flask in a constant temperature water bath and heat to 60 °C, then add 8 parts of ferric chloride and 9 parts of nickel chloride and stir at a constant speed until Dissolve the solid, then weigh 5 parts of trisodium citrate and 24 parts of sodium hydroxide in turn and stir to dissolve at a constant speed, then weigh 54 parts of reducing agent hydrazine hydrate, raise the temperature of the water bath to 85 °C, stir and react at a constant speed for 1 h, and then The solution in the reaction bottle was transferred into the automatic hydrothermal synthesis reaction kettle, and the temperature of the reaction kettle was set to 160 °C, and the reaction was carried out by uniform magnetic stirring for 18 h. After the reaction was completed, the reaction kettle was cooled to room temperature, and the material was filtered to remove the solvent to obtain a solid...
Embodiment 2
[0033] (1) Preparation of nano-Fe-Ni solid solution: Add 1000 mL of distilled water to the reaction flask, place the reaction flask in a constant temperature water bath and heat to 70 °C, then add 8.5 parts of ferric chloride and 9.5 parts of nickel chloride and stir at a constant speed until Dissolve the solid, then weigh 6 parts of trisodium citrate and 25 parts of sodium hydroxide in turn and stir to dissolve at a constant speed, then weigh 51 parts of reducing agent hydrazine hydrate, raise the temperature of the water bath to 85 °C, stir and react at a constant speed for 1 h, and then add The solution in the reaction bottle was transferred into the automatic hydrothermal synthesis reaction kettle, and the temperature of the reaction kettle was set to 160 °C, and the reaction was carried out with uniform magnetic stirring for 20 h. After the reaction was completed, the reaction kettle was cooled to room temperature, and the material was filtered to remove the solvent to obta...
Embodiment 3
[0037] (1) Preparation of nano-Fe-Ni solid solution: add 1200 mL of distilled water to the reaction flask, place the reaction flask in a constant temperature water bath and heat to 70 °C, then add 9 parts of ferric chloride and 10 parts of nickel chloride and stir at a constant speed until Dissolve the solid, then weigh 7 parts of trisodium citrate and 26 parts of sodium hydroxide in turn and stir to dissolve at a constant speed, then weigh 48 parts of reducing agent hydrazine hydrate, raise the temperature of the water bath to 90 °C, stir and react at a constant speed for 1 h, and then The solution in the reaction bottle was transferred into the automatic hydrothermal synthesis reaction kettle, and the temperature of the reaction kettle was set to 160 ° C, and the reaction was carried out with uniform magnetic stirring for 22 h. After the reaction was completed, the reaction kettle was cooled to room temperature, and the material was filtered to remove the solvent to obtain a s...
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