New Product Release
2017-2020 Ford Raptor
PRO-LIFT-KIT Performance Lift Springs
With the same spring technology found in our ERO Off-Road Race Springs, these block resistant PRO-LIFT-KIT Springs can be taken to the limit, mile after mile, ensuring consistent ride height. Eibach spring lifts allow full range of suspension travel without additional stress on bushings and ball-joints as seen with spacer lift systems. Our PRO-LIFT-KIT Springs have been subjected to hundreds of hours and thousands of cycles in development tests, all proudly made by Eibach in the USA.
- Manufactured using race winning off-road race spring technology
- Developed to provide balanced ride quality, control, and off-road capability
- Finished in Heavy-duty corrosion resistant silver coating
- Sold in pairs
2017-2018 Front Lift Before & After
2019-2020 Front Lift Before & After
2017-2018 Ride Height: + 2.5" Front
2019-2020 Ride Height: + 1.7" Front
R&D Testing Process
Like all products that we proudly put our name on, these springs underwent countless hours of design and engineering to reach the optimal mix of off-road readiness and daily, street comfort. Our kit was designed to accommodate both 2017-2018 model year vehicles with factory Fox Racing 3.0 shocks, as well as 2019-2020 vehicles Fox Racing 3.0 Live Valve units.
Many factors went into developing the ultimate system for each application, including initial field research, shock dyno measurements, the weight of the vehicle, available travel, full droop versus full compression, and developing the ideal spring rate to bring it all together. Finally, we put prototype units to the test both on- and off-road for a full evaluation to ensure they stood up to whatever the tarmac or trail could throw at them. Our goal to achieve a more capable ride height without compromising or changing the OEM-designed ride quality was met.
IN DEVELOPMENT! New for 2021+ Ford Raptor models, our PRO-LIFT-KIT will contain springs for both front and rear shocks that are precision-tuned to accommodate factory Fox electronically adaptive shocks.