Loop Bushing Mount - 3/4" Bushing ID X 1.9/16" Bushing OAL
Lower Mounting Description
Loop Bushing Mount - 3/4" Bushing ID X 1.9/16" Bushing OAL
Compressed Length (in.)
15.156
Travel Length (in.)
9.407
Parts Pack(s)
P00119
Compressed Bumper Stop
No
Extended Bumper Stop
Yes
Extended Hydraulic Lockout
No
Dust Shield Material
Metal
Magnum
Monroe® Magnum™ shock absorbers for class 3-6 Vehicles are gas-charged for quicker response and a stable, more comfortable ride. Replacing worn-out units with hard-working Magnum™ shocks can help reduce excessive vibration, which can result in better tire life, less downtime, and a lower cost per mile.
Features:
Robust Hydraulic Lock-Out: Prevents over-extension of the suspension, top-out of the piston and averts damage to the seal assembly (on most applications)
PTFE Coated Bearing: Reduces friction during operation between the rod and rod guide, improving durability (on most applications)
Shouldered Bushings: Shouldered bushing and bonded bushing with sleeve designs prevent bushing walkout for improved quality and durability (on most applications)
Nitrogen Gas-Charged: For improved ride and handling. Helps maintain tire to road contact by reducing aeration
Loop Welding Technique: Provides up to 14,100 lbs. (6,395 kg) tensile strength for maximum durability
Larger Reserve Tube: More fluid for more consistent performance (on most applications)
Larger Bore: Provides more efficient and consistent control (on most applications)
5/8" (16 mm) Diameter Piston Rod: Nitrocarburized design is more environmentally friendly and maintains chrome structural benefits without affecting durability or use life of the rod. Sintered iron design allows for more precise piston dimensions, requiring no additional components for exceptional fit (on most applications)
.05" Pressure Tube withstands pressure of 9KPSI (on most applications)
10-stage valving: Reacts to a wide range of driving conditions (on most applications)
All weather fluid: Contains special modifiers to reduce frictions and ensure smooth rod reaction