- Fixed installation: -30°c to max.+90°C
- Nominal voltage: 600 V
- Test voltage: 3000 V
- Insulation resistance: Min. 10 MΩ x km
- Min. bending radius: 6 x cable diameter
- Flame propagation: Flame retardant test as per IEC 60332-1
Information
generally conforms to, Based on CENELEC HD 22-6 31, VDE 0282 ,IEC 245-6, BS 6899 , IS 6830/84
Conductor:
High conductivity, bare annealed copper flexible conductor, EC copper class 5 and class 6 generally conforms to IEC 60228, DIN VDE 0281
Insulation:
Double Insulated flexible Nitrile rubber (NBR) insulated
Colour code:
Orange & Black Jacket
*Any other Color on specific request can also be supplied
- Ultra high performance flexible welding lead, double insulated
- Better flame retardant properties
- Excellent flexibility to last longer in flex applicationsBased on CENELEC HD 22-6 31, VDE 0282, IEC 245-6, IS 473, BS 638-4
- Outstanding toughness & durability
- High resistance to cuts, tears & abrasion
- Resistance to oil, solvents and chemicals
- Excellent ozone and weather resistant
NBR/NBR
Designed for the secondary (high current) connection to automatic or hand – held metal arc welding electrodes. It is suitable for flexible use under rugged conditions, on assembly lines and conveyor systems, in machine tool and automatically operated line and spot welding machines.
Standard length cable packing:
Coils 100, 200,300 and 500 m. in wooden reels
Current Rating :
The maximum current ratings of flexible welding cables for different duly cycles are based on an ambient air temperature of 25 C and a maximum conductor temperature of 90 C. The percentage duly cycles for various processes and applications are as follows:
- Automobile Welding : up to 100%
- Semi-automatic welding : 30% to 85%
- Manual Welding : 0% to 60%
- Very intermittent or Occasional Welding : up to 20%
Voltage Drop :
When total cable lengths in excess of 15 mtrs., are involved , it may be necessary to use cables of larger cross section to ensure that the voltage drop is not excessive and welding currents are maintained at adequate levels.