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Single-sided carbon conductive film, also known as composite conductive film or PET conductive film, is an advanced material developed to address performance limitations of traditional PU and PE conductive carbon films. The JH6000 series represents a new generation of composite conductive materials that combine multiple substrate options with specialized conductive coatings. This product line offers improved performance characteristics compared to single-material conductive films, making it suitable for diverse industrial applications where consistent conductivity and material flexibility are required.
The development of composite conductive films was driven by the need for materials that could maintain stable electrical performance across varying environmental conditions while remaining soft and conformable. By integrating multiple material layers and advanced conductive components, these films provide a balanced solution for applications ranging from medical devices to industrial heating systems.
The single-sided carbon conductive film incorporates graphene into its conductive layer, which contributes to uniform electrical properties across the film surface. The composite structure consists of a base substrate layer and a conductive coating composed of PU combined with conductive acetylene, graphene, and silver. This multi-component approach allows for precise control over electrical resistance values.
The film features a smooth and flat surface with uniform and stable resistance characteristics. It is manufactured using coating, heating, and gluing processes that ensure consistent material properties throughout production runs. The single-sided conductive design provides targeted electrical performance while maintaining insulation on the opposite side.
This conductive film supports customized resistance values, lengths, and widths to meet specific application requirements. The material is soft and conformable, allowing it to adapt to curved surfaces and complex shapes. It also exhibits a long service life under normal operating conditions, reducing replacement frequency in industrial and medical applications.
Model | Item | Composite Material | Material for Constructive Layer | Composition Methods | General Square Resistance (Ω/□) | Width (mm) | Length (m) |
JH600T | PET Composite Film | Polyethylene terephthalate film | PU+conductive acetylene/graphene/silver | Coating/Heating/Gluing | 0.02-600 | 5-1400 | 50-500 |
JH600I | PI Composite Film | Polyimide film | PU+conductive acetylene/graphene/silver | Coating/Heating/Gluing | 0.02-600 | 5-1400 | 50-500 |
JH600F | Fabric Composite Conductive Film | Various fabrics | PU+conductive acetylene/graphene/silver | Heating/Gluing | 0.02-600 | 5-1400 | 50-500 |
JH600X | Other Materials | Other substrates | PU+conductive acetylene/graphene/silver | Coating/Heating/Gluing | 0.02-600 | 5-1400 | 50-500 |
The conductive film material is soft and conformable, free of harmful substances, and has passed the EU RoHS halogen directive. These properties make it suitable for use in medical, physical therapy, rehabilitation, massage, and fitness patch electrodes. Different conductive effects can be achieved by adjusting the proportions of conductive materials in the coating.
Carbon film heat is primarily emitted through low-temperature radiation with a wavelength of 8.97 microns. Graphene heating produces 8-15 micron far-infrared waves, which fall within the 3-15 micron range of human body resonance waves. These far-infrared waves can be absorbed by the human body and may help dilate microvessels and promote blood circulation.
Beyond medical and heating applications, single-sided carbon conductive film is also used in electromagnetic shielding products and energy battery electrodes. In battery applications, separator materials play a role in physically isolating positive and negative electrodes while allowing lithium ions to pass through uniform micropores with sizes ranging from 0.1-1μm.
The film consists of a base substrate (PET, PI, fabric, or other materials) and a conductive layer made of PU combined with conductive acetylene, graphene, and silver. Different substrate options are available to meet specific application requirements.
The general square resistance range is 0.02-600 Ω/□. Custom resistance values can be provided based on specific application needs by adjusting the composition of the conductive coating.
The material has passed the EU RoHS halogen directive, confirming it is free of harmful substances and meets European environmental and safety standards for industrial and medical applications.
Customization is available for resistance values, width (5-1400mm), and length (50-500m). Different substrate materials can also be selected based on application requirements.
For commercial procurement inquiries and custom specification requests, please contact our technical team to discuss your specific application needs and receive detailed product information.
