Preparation method of honeycomb sandwich structured wave-absorbing composite filled with leaf-like nano-Fe3O4
A technology of honeycomb sandwich structure and composite materials, which is applied in the direction of nanotechnology, nanotechnology, chemical instruments and methods, etc., which can solve the requirements of easy wear and damage, and the difficulty in realizing the integration of the structure of the absorbing material and the absorbing function of the aircraft To achieve the effect of improving the mechanical strength, improving the structural load-bearing and wave-absorbing performance
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Embodiment 1
[0023] (1) Dissolve 2.63g of potassium ferricyanide in 80mL of deionized water and stir magnetically for 1 hour; to obtain a potassium ferricyanide solution, pour the obtained red solution into a 100mL polytetrafluoroethylene reactor liner, seal it into a stainless steel In the shell, hydrothermal reaction at 140°C for 48 hours to obtain leaf-shaped nano-α-Fe 2 o 3 , centrifuged at 8000rpm for 10min to collect the precipitate, washed several times with deionized water and alcohol. Dry in a blast drying oven at 60°C for 24 hours before use.
[0024] (2) the leaf-shaped nano-α-Fe obtained in (1) 2 o 3 The sample was placed in a tube furnace and heat-treated at 350°C for 1 hour in a reducing hydrogen and argon mixed gas environment to obtain leaf-like nano-Fe 3 o 4 Absorbing material. Scanning electron microscope photos show that the product is in the shape of a special nano-leaf, as shown in the attached figure 1 shown. In the heat treatment process, the flows of hydroge...
Embodiment 2
[0028] (1) Dissolve 2.63g of potassium ferricyanide in 80mL of deionized water and stir magnetically for 1 hour; to obtain a potassium ferricyanide solution, pour the obtained red solution into a 100mL polytetrafluoroethylene reactor liner, seal it into a stainless steel In the shell, hydrothermal reaction at 100°C for 12 hours to obtain leaf-shaped nano-α-Fe 2 o 3 , centrifuged at 7000rpm for 5min to collect the precipitate, washed several times with deionized water and alcohol. Dry in a blast drying oven at 50°C for 24 hours before use.
[0029] (2) the leaf-shaped nano-α-Fe obtained in (1) 2 o 3 The sample was placed in a tube furnace and heat-treated at 300°C for 1 hour in a reducing hydrogen and argon mixed gas environment to obtain leaf-shaped nano-Fe 3 o4 Absorbing material. In the heat treatment process, the flows of hydrogen and argon in the mixed gas of hydrogen and argon used to reduce α-Fe2O3 are 10ml / min and 120ml / min respectively.
[0030] (3) the leaf-shap...
Embodiment 3
[0033] (1) Dissolve 2.63g of potassium ferricyanide in 80mL of deionized water and stir magnetically for 1 hour; to obtain a potassium ferricyanide solution, pour the obtained red solution into a 100mL polytetrafluoroethylene reactor liner, seal it into a stainless steel In the shell, hydrothermal reaction at 150°C for 48 hours to obtain leaf-shaped nano-α-Fe 2 o 3 , centrifuged at 9000rpm for 15min to collect the precipitate, washed several times with deionized water and alcohol. Dry in a blast oven at 80°C for 24 hours before use.
[0034] (2) the leaf-shaped nano-α-Fe obtained in (1) 2 o 3 The sample was placed in a tube furnace and heat-treated at 500°C for 2 hours in a reducing hydrogen and argon mixed gas environment to obtain leaf-shaped nano-Fe 3 o 4 Absorbing material. In the heat treatment process, the flows of hydrogen and argon in the mixed gas of hydrogen and argon used to reduce α-Fe2O3 are 10ml / min and 120ml / min respectively.
[0035] (3) the leaf-shaped ...
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