• 专利标题:   Graphene carbon nanotube composite material for preparing quantum thermal frequency radiation wire used in a quantum thermal frequency radiation fabric, comprises graphene nano silver powder and carbon nanotube.
  • 专利号:   CN111613364-A
  • 发明人:   ZHAO Z
  • 专利权人:   BEIJING GUANGYI IND CO LTD
  • 国际专利分类:   C01B032/168, C01B032/194, C08K013/02, C08K003/04, C08K003/08, C08L027/06, C08L033/04, C08L061/06, C08L063/00, C08L067/00, C08L075/04, D03D015/00, D03D015/02, D06M101/32, D06M011/74, D06M011/83, H01B001/22, H01B001/24, H01B013/00
  • 专利详细信息:   CN111613364-A 01 Sep 2020 H01B-001/22 202079 Pages: 13 Chinese
  • 申请详细信息:   CN111613364-A CN10432411 20 May 2020
  • 优先权号:   CN10432411

▎ 摘  要

NOVELTY - Graphene carbon nanotube composite material comprises 4-15 pts. wt. graphene nano silver powder and 12-30 pts. wt. carbon nanotube. The mass ratio of graphene and nano-silver in graphene nano-silver powder is 3-7:2-6. USE - Graphene carbon nanotube composite material for preparing quantum thermal frequency radiation wire used in a quantum thermal frequency radiation fabric (all claimed) and used in medical and health industry. ADVANTAGE - The graphene carbon nanotube composite material comprehensively utilizes conductivity of graphene nano silver powder and carbon nanotube, releases thermal waves with a peak wavelength of 8.96-9.45 mu m and a frequency of 31.7-34.5THz, which resonates with water molecule, generates thermal wave at a temperature of 40.1 degrees C, and increases heat frequency. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are included for the following: (1) a method for preparing graphene carbon nanotube composite material, which involves performing high-speed shearing and dispersing mixing of carbon nanotubes and organic solvents to obtain a first solution, performing high-speed shearing dispersion mixing between graphene nano silver powder and first solution to obtain a mixture, ultrasonically dispersing the mixture, and subjecting it to grinding treatment to obtain graphene carbon nanotube composite material; (2) a quantum thermal frequency radiation wire, which comprises graphene-carbon nanotube composite material and yarn, where graphene-carbon nanotube composite material is coated on surface of yarn; (3) a method for preparing quantum thermal frequency radiation wire, which involves providing the yarn; providing the graphene carbon nanotube composite material; and coating graphene carbon nanotube composite material on surface of the yarn; and (4) a quantum thermal frequency radiation fabric, which comprises quantum thermal frequency radiation wire, and fabric further comprises a metal wire and a textile yarn, where quantum thermal frequency radiation wire, metal wire and the textile yarn are woven together.