A negative ion particle material capable of generating microcurrent
A negative ion particle and micro-current technology, which is applied in the field of negative ion particle materials, can solve the problems of organic germanium that are not disclosed in the literature, and achieve the effects of smooth metabolism, promoting blood circulation, and promoting blood circulation and metabolism of the human body
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Embodiment 1
[0064] The negative ion granular material that can produce micro-current of the present embodiment comprises the following components by weight: aluminum oxide 27%, organic germanium powder 0.2%, sapphire powder 2%, silicon dioxide 30%, magnesium oxide 5%, Boron trioxide 10%, ferric oxide 8%, sodium oxide 0.5%, phosphorus pentoxide 0.1%, titanium dioxide 0.2%, iron oxide 8%, calcium oxide 2%, periclase 2%, activated carbon 5%.
[0065] The preparation method of the above-mentioned negative ion particle material capable of generating microcurrent comprises the following steps:
[0066] (1) each component raw material in negative ion granular material is carried out ore dressing one by one respectively, crosses 2200 mesh sieves after crushing and grinding;
[0067] (2) First add organic germanium powder in Al2O3 and mix evenly, then add sapphire powder and mix evenly, and then add other raw materials of each component by analogy to obtain the final mixed material;
[0068] (3) ...
Embodiment 2
[0076] The negative ion granular material that can produce micro-current of the present embodiment comprises the following components by weight: aluminum oxide 25%, organic germanium powder 0.5%, sapphire powder 2%, silicon dioxide 25%, magnesium oxide 6%, Boron trioxide 12%, ferric oxide 10%, sodium oxide 1.5%, phosphorus pentoxide 0.5%, titanium dioxide 0.5%, iron oxide 8%, calcium oxide 2%, periclase 2%, activated carbon 5%.
[0077] The preparation method of the aforesaid negative ion particle material capable of generating microcurrent comprises the following steps:
[0078] (1) each component raw material in negative ion granular material is carried out ore dressing respectively one by one, crosses 2000 mesh sieves after pulverizing;
[0079] (2) First add organic germanium powder in Al2O3 and mix evenly, then add sapphire powder and mix evenly, and then add other raw materials of each component by analogy to obtain the final mixed material;
[0080] (3) Stir the final mi...
Embodiment 3
[0087] The negative ion granular material that can produce micro-current of the present embodiment comprises the following components by weight: aluminum oxide 30%, organic germanium powder 0.4%, sapphire powder 2%, silicon dioxide 26%, magnesium oxide 5%, Boron trioxide 10%, ferric oxide 8%, sodium oxide 1%, phosphorus pentoxide 0.2%, titanium dioxide 0.4%, iron oxide 8%, calcium oxide 2%, periclase 2%, activated carbon 5%.
[0088] The preparation method of the aforesaid negative ion particle material capable of generating microcurrent comprises the following steps:
[0089] (1) each component raw material in negative ion granular material is carried out ore dressing respectively one by one, crosses 1800 mesh sieves after pulverizing;
[0090] (2) First add organic germanium powder in Al2O3 and mix evenly, then add sapphire powder and mix evenly, and then add other raw materials of each component by analogy to obtain the final mixed material;
[0091] (3) Stir the final mix...
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