The halogen free identification markers are designed to meet the wire and cable marking needs of manufacturers with high performance requirements. Made from permanent, radiation cross-linked heat-shrinkable polyolefin with excellent fire safety characteristics and minimal smoke emission. The 3:1 provide extremely fast shrinking and cover a wider range of wire diameters. For marking the wires and various cables in buildings, factories, switch terminals, metro, train, aircraft and motor industry. Halogen free identification sleeves meet the requirements of UL 224. The marker sleeves are designed to be printed by computer-driven heavy duty dot matrix, thermal transfer printers providing several advantages in terms of reduced errors, cycle time and cost. Supplied in a thin, flatten "cartridge belt" format, the sleeves are held horizontally between two hole-punched polyester strips. This configuration feeds directly from the storage box into a recommended Labelident ribbons should always be used. The "cartridge belt" format provides automatic kitting of the marker sleeves in the desired sequence. The HFEF materials are comply with the requirements of RoHS, IEC 61249-2-21, 2002/72/EC, Japan Toy Safety Standard Part-3 and SS00259. UL recognized, VW-1 and all flame tubing test rated and CSA certified.
- Material:
- radiation cross-linked polyolefin
- Color:
- white
- Shrink ratio:
- 3:1
- Shrink temperature:
- min. +185 °F (+85 °C), complete shrink temp. +239 °F (+115 °C)
- Service temperature:
- -67 °F (-55 °C) to +257 °F (+125 °C)
- Specification:
- UL224 recognized, VW-1 and all flame tubing test rated CSA certified; the materials are comply with the requirements of IEC 61249-2-21, 2002/72/EC, Japan Toy Safety Standard Part-3 and SONY SS00259
- Properties:
- halogen free, with minimal smoke emission; permanent immediately after thermal transfer printing and remain legible even when exposed to abrasion, aggressive cleaning solvents; quick recovery for heat sensitive areas
- Ribbon quality:
- Y900 (suitable for excellent printing results with high resistance)
