2021 Toyota Tundra Suspension Lift Kit - Front and Rear ICON Vehicle Dynamics

  • Features:
    • Increased wheel travel and ride quality over stock
    • Vehicle-specific tuned front and rear shocks for superior shock damping and control
    • CDC Valve technology allows for 10 settings of quick and easy compression damping adjustment
    • Adjustable coilovers provide 1-3" of front lift height
    • 6061 aircraft grade aluminum CNC machined components
    • Corrosion resistant CAD plated coilover shock body with 7/8" shaft
    • 2.5 Aluminum Series remote reservoir RXT rear shocks with impact extruded aluminum cylinders and 7/8" shafts
    • FK Rod End bearings for extended longevity and minimal deflection
    • Shocks are fully rebuildable and revalveable
    • Bolt-on system means no cutting or welding necessary for install
    • 3 user-adjustable rear leaf spring rates for unique vehicle configurations
    • Military wrap front leaf spring eyelets for increased durability
    • Galvanized leaf separators reduce friction and aid in corrosion resistance
    • Leaf spring tip inserts reduce noise and increase ride comfort
    • Increased wheel travel when used with RXT shock without sacrificing up-travel
    • Unique side-mounted lower eyelet allows for increased rear shock travel while utilizing factory mounting location
    • 10” aluminum reservoirs in RXT shocks provide generous oil and nitrogen volume for consistent damping as shock temperature increases
  • This system features billet aluminum upper control arms with ICON's patented Delta Joint. The Delta Joint is a heavy-duty high angle ball joint that combines the durability of a ball joint with the performance characteristics of a traditional uniball. While the industry standard uniball does a great job of allowing the control arms of a vehicle to articulate with little bind, they do have an inherent weakness that leaves more to be desired when used in a daily driven application - exposure to the elements. The Delta Joint features a zinc plated housing providing the first layer of corrosion resistance, while a tough grease seal keeps potentially harmful elements out of the inner workings of the joint. Metal on metal construction and a greaseable design increase the longevity of the Delta Joint while at the same time allowing for noise-free operation. What makes the Delta Joint unique is that it brings the best of both worlds to ICON upper control arms with features that make it more robust than a uniball, and at the same time capable of greater angularity than a typical ball joint.

Additional Fitment Information:
Vehicle Position
2021 Toyota Tundra Front and Rear
Brand ICON Vehicle Dynamics
Part # I43K53029
Condition New
Warehouse B

ICON Vehicle Dynamics

  • Requires 1.5 (in) Raises Front 1 (in) - 3 (in) without TRD Rear Sway Bar
  • 2007-2021 TUNDRA 1-3" LIFT STAGE 9 SUSPENSION SYSTEM WITH BILLET UPPER CONTROL ARMS
  • 07-21 TUNDRA 1-3" STAGE 9 SUSPENSION SYSTEM W BILLET UCA
  • General

    California Proposition 65
    Warning: This Product Contains Chemicals Known To The State Of California To Cause Cancer, And Birth Defects Or Other Reproductive Harm.
    Recommended Aftermarket Tires
    35" X 12.50" (larger Tires May Fit But Fender Trimming And Modifications Will Be Required.)
    Recommended Aftermarket Wheels
    • Icon Alloys | 17x8.5" W/ 5.75” Backspace / 25mm Offset
    • Icon Alloys | 18x9" W/ 6” Backspace / 25mm Offset
    • Icon Alloys | 20x9" W/ 5.625” Backspace / 16mm Offset
    Grade Type
    Performance
    Mounting Hardware Included
    Yes
    Leaf Spring Leaf Quantity
    8
    Bushings Included
    Yes
    Spring Color
    Black
    Maximum Lift
    3.5
    Title
    07-21 Tundra 1-3" Stage 9 Suspension System W Billet Uca
    Coils Quantity Front
    2
    Spring Material
    Steel
    Shocks Included
    Yes
    OEM Wheels & Tires Fitment
    Yes
    Information on technical characteristics, the delivery set, the country of manufacture and the appearance of the goods is for reference only and is based on the latest information available at the time of publication.

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