◆Large thermal dissipation area
◆Battery side thermal dissipation
◆High thermal dissipation efficiency
◆Low leakage risk and high reliability
◆Stable and high production efficiency
◆Reduce the weight of the battery pack
◆Low energy for single cylindrical battery
◆Improve the battery life and performance
◆Large thermal dissipation area
◆Battery side thermal dissipation
◆High thermal dissipation efficiency
◆Low leakage risk and high reliability
◆Stable and high production efficiency
◆Reduce the weight of the battery packs
◆Low energy for single cylindrical battery
◆Improve the battery life and performance
◆Good surface flatness
◆Large thermal transfer area
◆Flexible flow channel design
◆Thin thickness to save space
◆Perfect thermal dissipation effect
◆Low leakage risk and high reliability
◆Stable and high production efficiency
◆Good pressure resistance and strength
◆High material utilization
◆Battery side heat dissipation
◆Large thermal dissipation area
◆High thermal dissipation efficiency
◆Low leakage risk and high reliability
◆Stable and high production efficiency
◆Reduce the weight of the battery pack
◆Improve the battery life and performance
◆Large thermal dissipation area
◆Battery side thermal dissipation
◆High thermal dissipation efficiency
◆Low leakage risk and high reliability
◆Stable and high production efficiency
◆Reduce the weight of the battery pack
◆Low energy for single cylindrical battery
◆Improve the battery life and performance
◆High material utilization
◆Large thermal dissipation area
◆Battery side thermal dissipation
◆High thermal dissipation efficiency
◆Low leakage risk and high reliability
◆Stable and high production efficiency
◆Reduce the weight of the battery pack
◆Improve the battery life and performance
◆Large thermal transfer area
◆Flexible flow channel design
◆Rapid thermal cooling speed
◆Excellent thermalcooling effect
◆Low leakage risk and high security
◆Stable and high production efficiency
◆Good pressure resistance and strength
◆Improve battery function andperformance
◆Good surface smoothness
◆Large thermal transfer area
◆Optional flow channel design
◆Easy processing and shaping
◆Excellent thermal cooling effect
◆Low leakage risk and high reliability
◆Stable and high production efficiency
◆Good pressure resistance and strength
◆Good surface flatness
◆Large thermal transfer area
◆Flexible flow channel design
◆Thin thickness to save space
◆Perfect thermal dissipation effect
◆Low leakage risk and high reliability
◆Stable and high production efficiency
◆Good pressure resistance and strength
◆ Can be used to splice and terminate cable, to avoid fire
◆ Physical and electrical properties are unaffected by the degree of stretch.
◆ Self-fusing tape.
◆ Heat resistance;
◆ Resistance to ozone, UV and xenon exposure;
◆ Operation and installation easily.
◆ Can be used to splice and terminate cable, the emergency overload temperatures can reach 130℃.
◆ Based on Ethylene Propylene Rubber(EPR).
◆ Physical and electrical properties are unaffected by the degree of stretch.
◆ Self-fusing tape.
◆ Excellent electrical properties.
◆ A special polyester liner which will not stick to the tape upon unwind.
◆ Operation and installation easily.
◆ Compatible with all solid dielectric cable insulation:
Polyethylene (high and low density).
Cross-linked polyethylene (XLPE).
Polyvinyl chloride (PVC).
Butyl rubber.