Vehicle Fitment
Make | Model | Year |
---|---|---|
International | M1400 Metro II | 1987-1990 |
Make | Model | Year |
---|---|---|
International | M1400 Metro II | 1987-1990 |
Gas-Magnum™ Rear Driver or Passenger Side Shock Absorber (34803) by Monroe®. Quantity: 1 per Pack. These shock absorbers are designed specially for vans and pickup trucks. Monroe Gas-Magnum assemblies provide firm control and greater stability without a harsh ride. They have up to twice the fluid capacity of ordinary 1” bore shocks for more efficient operation with less effort.
Compressed Length: 13.25" |
Extended Length: 21.00" |
Stroke Length: 7.75" |
Upper Mounting: Loop Bushing Mount - 0.625" Bushing ID x 1.313" Bushing OAL |
Lower Mounting: Loop Bushing Mount - 0.625" Bushing ID x 1.313" Bushing OAL |
Dust Shield: Yes |
Dust Shield Material: Metal |
Extended Bumper Stop: No |
Extended Hydraulic Lockout: No |
Monroe Gas-Magnum shocks are engineered to give you smoother driving stability and control on your truck or van. These shocks with their 1 3/8” bores, have up to twice the capacity compared to standard 1” bore shocks. Thanks to special modifiers the fluid reduces friction providing smoother rod reaction. They’re also equipped with a larger sintered iron piston that is much stronger than the traditional metal. The shock absorbers are nitrogen gas-charged as well for better tire-to-road contact and improved ride. A better valving range on shock compression and extension also helps provide a smooth, comfortable ride. Monroe Gas-Magnums are also equipped with a self-lubricating fluid seal designed to prevent loss of gas pressure without excessive wear.
Monroe® is a leading manufacturer of high-quality suspension parts. The company has a network of 14 engineering centers on five continents providing improved technology and outstanding performance solutions for domestic passenger cars, SUVs, trucks and severe duty vehicles. Monroe offers a wide range of revolutionary products like premium shocks and struts that provide superior steering, stopping and stability.