Preparation method of far-infrared graphene condom
A graphene and condom technology, applied in the field of adult products, can solve the problems of low far-infrared absorption efficiency, speed up metabolism, and potential safety hazards, and achieve the effects of improving metabolism and immune function, improving metabolism, and improving immunity
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Embodiment 1
[0027] In the present embodiment, the preparation method of the far-infrared graphene condom is as follows:
[0028] S1: Add 1kg of PVP into 1L of deionized water to fully dissolve it, then add 1kg of graphene, and ultrasonically disperse it at an ultrasonic power of 20W for 2 hours to obtain a stable dispersion in water;
[0029] S2: Place the uniformly dispersed graphene dispersion above under the electron beam irradiation of 2.5MeV, 40mA electron accelerator for irradiation treatment, the irradiation dose is 200KGy, and the irradiation time is 6h, to obtain a high-performance graphene dispersion, Its performance index is: the average far-infrared emissivity of the graphene dispersion is 0.937;
[0030] S3: Add 10Kg of natural latex with a concentration of 60wt% into a clean mixing tank, and gradually add the previously prepared high-performance graphene dispersion under stirring conditions. According to the solid mass ratio, the mixing ratio of the high-performance graphen...
Embodiment 2
[0032] In the present embodiment, the preparation method of the far-infrared graphene condom is as follows:
[0033] S1: Add 2kg of PVP into 1L of deionized water to fully dissolve it, then add 1kg of graphene, and ultrasonically disperse it at an ultrasonic power of 20W for 2 hours to obtain a stable dispersion in water;
[0034] S2: Place the uniformly dispersed graphene dispersion above under the electron beam irradiation of 2.5MeV, 40mA electron accelerator for irradiation treatment, the irradiation dose is 300KGy, and the irradiation time is 12h, to obtain a high-performance graphene dispersion, Its performance index is: the average far-infrared emissivity of the graphene dispersion is 0.942;
[0035] S3: Add 10Kg of natural latex with a concentration of 60wt% into a clean mixing tank, and gradually add the previously prepared high-performance graphene dispersion under stirring conditions. According to the solid mass ratio, the mixing ratio of the high-performance graphe...
Embodiment 3
[0037] In the present embodiment, the preparation method of the far-infrared graphene condom is as follows:
[0038] S1: Add 2kg of PVP into 1L of deionized water to fully dissolve it, then add 1kg of graphene, and ultrasonically disperse it at an ultrasonic power of 20W for 2 hours to obtain a stable dispersion in water;
[0039] S2: Place the uniformly dispersed graphene dispersion above under the electron beam irradiation of 2.5MeV, 40mA electron accelerator for irradiation treatment, the irradiation dose is 400KGy, and the irradiation time is 18h, to obtain a high-performance graphene dispersion, Its performance index is: the average far-infrared emissivity of the graphene dispersion is 0.947;
[0040] S3: Add 10Kg of natural latex with a concentration of 60wt% into a clean mixing tank, and gradually add the previously prepared high-performance graphene dispersion under stirring conditions. According to the solid mass ratio, the mixing ratio of the high-performance graphe...
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