◆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
◆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
◆Flexible flow channel design
◆Thin thickness to save space
◆Easy processing and shaping
◆Large thermal dissipation area
◆High heat dissipation efficiency
◆Low leakage risk and highsafety
◆Good pressure resist and strength
◆High production efficiency and yield
◆Flexible flow channel design
◆Thin thickness to save space
◆Easy processing and shaping
◆Large thermal dissipation area
◆Low leak risk and high reliability
◆Good tightness and high strength
◆High thermal dissipation efficiency
◆Stable and high production efficiency
◆High production efficiency
◆Large thermal transfer area
◆Flexible flow channel design
◆Rapid thermal cooling speed
◆Thin thickness to save space
◆Easy processing and shaping
◆Goodthermal exchange effect
◆Low leak risk and high security
◆High production efficiency
◆Large thermal contact area
◆Uniform and stable welding
◆Rapid thermal cooling speed
◆Thin thickness to save space
◆Easy processing and shaping
◆Good thermal exchange effect
◆Low leak risk and high reliability
A total of 1 pages