▎ 摘　　要

NOVELTY - Graphene porcelain moxibustion composite energy-saving material comprises 60-80 wt.% heat storage material, 15-30 wt.% high frequency material, 1-5 wt.% antibacterial material, 0.1-3 wt.% pore-forming material and 0.1-3 wt.% bonding material. The heat storage material is made of graphene, kaolin, sepiolite and alumina. The high frequency material is made of terahertz powder, vermiculite powder, jade powder, far infrared powder and tantalum powder. The antibacterial material is made of nano zinc oxide, silver powder and copper zinc alloy. The pore-forming material is made of activated carbon powder. The bonding material is made of sodium metasilicate. USE - Graphene-ceramic moxibustion composite energy-saving material used is applied to a porcelain moxibustion bed, a porcelain moxibustion blanket, a functional pillow, a hot compress bag, and a functional mattress or a cushion (claimed). ADVANTAGE - The graphene porcelain moxibustion composite energy-saving material, which has the antibacterial and antibacterial function, and is a new material which is natural environmental protection, energy saving and consumption reduction, provides a preparation method and application. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a method for preparing a graphene-ceramic moxibustion composite energy-saving material, which involves: (A) mixing and grinding the kaolin, sepiolite and alumina to a particle size of 100-500 mesh to obtain a composite material A; (B) mixing graphene with composite material A, baking at 100-300 degrees C for 1-5 hours, grinding to a particle size of 50-500 mesh, to obtain composite material B; (C) mixing the high frequency material with the antibacterial material, grinding to a particle size of 100-500 mesh, to obtain a composite material C; (D) mixing the prepared composite materials B and C to obtain a mixed material, dissolving the binder material in water to form a binder, and spraying the binder during the granulation of the mixed material to form spherical particles; and (E) drying the spherical particles in the sunlight for 10-50 hours, and then sinterring in a kiln for 3-10 hours to obtain a product.