The nano-carbon fiber heating element can radiate the generated heat in the form of far-infrared radiation without generating ionizing radiation harmful to the human body. Far infrared rays also have powerful health care functions, which makes the carbon fiber heating element a green, environmentally friendly and healthy electric heating material, and it also cleans the environment. The advantages of warm and comfortable, energy-saving and power-saving, safety and reliability, etc., are in line with national urban planning requirements and environmental protection policies.
Nanotechnology first raised the use of carbon fiber to the nanometer level. Unlike the conductive mesh produced by ordinary carbon fiber, the multi-dimensional conductive mesh produced by nanometer carbon fiber is almost invisible to the naked eye, which solves the hidden safety hazards and low heating efficiency of many ordinary carbon fiber conductive meshes. The problem of large-scale production and application can be achieved, which is the current international excellent cutting-edge technology.
The electromagnetic radiation of nano-carbon fiber materials is close to zero. The magnetic resistance and magnetic field in the conductive network composed of nano-scale carbon fibers are under the action of Lorentz force, and the electric field, magnetic field and magnetic resistance generated by the accumulated positive and negative charges cancel each other out. The radiation is almost zero, and the entire surface is full of electronic pathways under normal voltage, and the current density is extremely small, which does not harm the human body.
Nano-carbon materials refer to carbon materials with at least one dimension smaller than 100 nm in the dispersed phase. The dispersed phase can be composed of carbon atoms, heterogeneous atoms (non-carbon atoms), or even nanopores. Nano-carbon materials mainly include three types: carbon nanotubes, carbon nanofibers, and nano-carbon balls.
Carbon fiber has very good electrical properties and is an excellent heat-generating material. The heat generated after electrification is radiated in the form of lattice vibration, and the electrothermal conversion efficiency can reach more than 98%. In addition, the external surface area is large and the heat radiation efficiency is It is quite high and can effectively avoid heat storage and overheating during use.
Songhu Shenjian Technology (Dongguan) Co., Ltd. relies on the Songshan Lake Materials Laboratory, developed by the laboratory's new fiber team. The company is engaged in the research and development, production, sales, promotion and service of new material technology and its products. The main products include a series of new materials such as nano-carbon fiber, three-dimensional graphene powder, electrospun polymer nanofiber membrane, and electrostatic spinning series equipment. Accept customization, the company's technology is the team's independent original. The company's products are widely used in energy, environmental protection, chemistry and chemical engineering, health protection, scientific research and other fields. The company adheres to the concept of innovation, service, and integrity, is committed to the research and development of new materials and technologies, and provides the society with high-quality products and innovative technologies.