M/P NYL KERR WHT 36mm 12.2m

Item No. WJA003
The Kinetic Energy Recovery Rope (KERR) was designed and developed by Marlow and British forces to provide fast and effective recovery of armoured vehicles through the transfer of kinetic energy from the towing vehicle to the trapped vehicle. It allows quick and easy deployment for rapid recovery wi

Description

The Kinetic Energy Recovery Rope (KERR) was designed and developed by Marlow and British forces to provide fast and effective recovery of armoured vehicles through the transfer of kinetic energy from the towing vehicle to the trapped vehicle. It allows quick and easy deployment for rapid recovery without the need for specialist vehicles. Manufactured using the highest quality UV stabilised high tenacity nylon yarn for maximum energy transfer, K.E.R.R.'s are specified based upon gross vehicle weight and come with a factory spliced soft eye each end.

Spécifications

Colour
WHITE
Diameter
36 mm
Material type
Nylon
Minimum break load
24,800 KG
Spec
BS EN ISO 1140

M/P NYL KERR WHT 36mm 12.2m

Item No. WJA003
The Kinetic Energy Recovery Rope (KERR) was designed and developed by Marlow and British forces to provide fast and effective recovery of armoured vehicles through the transfer of kinetic energy from the towing vehicle to the trapped vehicle. It allows quick and easy deployment for rapid recovery wi

Spécifications

Colour
WHITE
Diameter
36 mm
Material type
Nylon
Minimum break load
24,800 KG
Spec
BS EN ISO 1140

Description

The Kinetic Energy Recovery Rope (KERR) was designed and developed by Marlow and British forces to provide fast and effective recovery of armoured vehicles through the transfer of kinetic energy from the towing vehicle to the trapped vehicle. It allows quick and easy deployment for rapid recovery without the need for specialist vehicles. Manufactured using the highest quality UV stabilised high tenacity nylon yarn for maximum energy transfer, K.E.R.R.'s are specified based upon gross vehicle weight and come with a factory spliced soft eye each end.