A range of materials ideally suited for General Cable Applications.

LV Silane XLPe Insulation Natural (unfilled)

SX408:CM401

Silane crosslinkable polyethylene for low voltage power cable insulation. Special Characteristics A silane crosslinkable polyethylene compound, curable by exposure to moist conditions, and possessing excellent extrudability at high output rates. The graft component SX408 is mixed with a crosslinking catalyst masterbatch CM401 generally in the ratio 95:5. The SX408:CM401 compound has been specifically developed for low voltage power cable insulation. Density g/cm² Tensile Strength N/mm² Elongation % General Notes View Datasheet 0.925 18 350 Use up to 3kV

Process Plus SX522A:CM401

Ambient cure silane crosslinkable polyethylene for low voltage Power Cable Insulation. Special Characteristics A silane crosslinkable polyethylene compound for insulation of Power Cables and possessing outstanding extrudability at high output rates. The graft component SX522A is mixed with a crosslinking catalyst masterbatch CM401 generally in the ratio 95:5. Process Plus SX522A:CM401 shows minimum point and die drool, low scorch characteristics and high production efficiency. This process plus SX522A:CM401 compound can also be cured at ambient temperatures and is specifically designed for small and sector shaped cables. Density g/cm² Tensile Strength N/mm² Elongation % General Notes View Datasheet 0.92 18 450 ‘Ambient Cure’

Process Plus SX546:CM497CD or CM493CD

Silane crosslinkable polyethylene for low voltage power cable insulation 125°C rated. Special Characteristics A silane crosslinkable polyethylene compound for insulation of power cables and possessing outstanding extrudability at high output rates. The graft component SX546 is mixed with a crosslinking catalyst masterbatch CM497CD or CM493CD generally in the ratio 95:5. Process Plus SX546:CM497CD shows minimum point and die drool, low scorch characteristics and high production efficiency, designed for operation temperatures up to 125°C. This process plus SX546:CM497CD compound can also be cured at ambient temperatures and has a nominal melt index of 1.2. Density g/cm² Tensile Strength N/mm² Elongation % General Notes View Datasheet 0.92 24 500 125°C operation

SX490:CM401 or CM401/2

UV stabilised silane crosslinkable polyethylene compound for aerial cables. Special Characteristics A silane crosslinkable polyethylene compound, curable by exposure to moist conditions, and possessing excellent extrudability at high output rates. The graft component SX490 is mixed with a crosslinking catalyst masterbatch CM401 or CM401/2 generally in the ratio 95:5. The compound contains 2:5% carbon and has been specially developed for insulated "overhead" or aerial cables of the bunched type, and enables full compliance with the German specification VDE 0274. Density g/cm² Tensile Strength N/mm² Elongation % General Notes View Datasheet 0.93 17 380 2.5% Carbon Black

SX523:CM493 or CM497

UV stabilised silane crosslinkable polyethylene compound for "Câble Torsadé". Special Characteristics Silane crosslinkable polyethylene compounds, curable by exposure to moist conditions, for insulation of cables where resistance to ultra-violet radiation is required. The material is carbon loaded and possesses excellent extrudability at high output rates. The graft component SX523 is mixed with a crosslinking catalyst masterbatch CM493 or CM497 generally in the ratio 95:5. The compound has been specially developed for the "Câble Torsadé" application to NFC 33-209. Density g/cm² Tensile Strength N/mm² Elongation % General Notes View Datasheet 0.95 18 450 High Carbon Black content