A Kinetic Recovery Rope is the perfect recovery tool for freeing a vehicle that is stuck in deep mud, sand, snow or silt. Kinetic Energy Recovery Ropes are much safer and more effective than a tow rope or chain since they have the ability to stretch under load, which allows it to use its own kinetic energy to assist in the recovery and dislodge a stuck vehicle.
AEV’s 7/8” x 30’ Kinetic Energy Recovery Rope for sale features a minimum breaking strength (MBS) of 29,000lbs. and is made from a heavy duty, double braided nylon with a loop at each end that is reinforced for added protection against abrasion.
Please Note:
Minimum Breaking Strength (MBS) is the minimum force necessary to cause a recovery device to break or fail. Working Load Limit (WLL) is the recommended maximum force a recovery device is intended to safely support, when the force is applied in-line and through the centerline of the device. The WLL is calculated by dividing the Minimum Breaking Strength (MBS) by a safety factor that is generally around 4-to-1. For example, the AEV Snatch Block has an MBS of 52,000 LBS, so when divided by a safety factory of 4-to-1, the WLL becomes 13,000 LBS.
Tech Specs:
A Kinetic Recovery Rope is the perfect recovery tool for freeing a vehicle that is stuck in deep mud, sand, snow or silt. Kinetic Energy Recovery Ropes are much safer and more effective than a tow rope or chain since they have the ability to stretch under load, which allows it to use its own kinetic energy to assist in the recovery and dislodge a stuck vehicle.
AEV’s 7/8” x 30’ Kinetic Energy Recovery Rope for sale features a minimum breaking strength (MBS) of 29,000lbs. and is made from a heavy duty, double braided nylon with a loop at each end that is reinforced for added protection against abrasion.
Please Note:
Minimum Breaking Strength (MBS) is the minimum force necessary to cause a recovery device to break or fail. Working Load Limit (WLL) is the recommended maximum force a recovery device is intended to safely support, when the force is applied in-line and through the centerline of the device. The WLL is calculated by dividing the Minimum Breaking Strength (MBS) by a safety factor that is generally around 4-to-1. For example, the AEV Snatch Block has an MBS of 52,000 LBS, so when divided by a safety factory of 4-to-1, the WLL becomes 13,000 LBS.
Tech Specs:
