Revamp the rear suspension of your 2001-2005 Honda Civic with Skunk2 Racing's Lower Control Arms, designed for both street performance and racing applications. These control arms, featuring a sleek clear anodized finish, are engineered to replace your stock lower control arms while maintaining the factory suspension geometry. Constructed from high-strength AL2024 billet aluminum forgings and meticulously CNC-machined, these control arms offer a significant reduction in weight, being over 25% lighter than the stock components. Skunk2 Racing's Lower Control Arms are not just about weight savings; they also feature adjustable sway bar mounting holes for precise tuning of the rear suspension's feel and balance. The inclusion of low deflection polyurethane bushings, acting as bearings, ensures quicker response and a more positive suspension feel, enhancing your Civic's handling performance and driving experience. Key Features: - Direct replacement for stock lower control arms, maintaining factory suspension geometry. - Constructed from AL2024 billet aluminum forgings for strength and durability. - Precision CNC-machined for a perfect fit. - Over 25% lighter than stock control arms for reduced curb weight. - Adjustable sway bar mounting holes for fine-tuning rear suspension balance. - Equipped with low deflection polyurethane bushings for improved response and suspension feel. - Clear anodized finish for corrosion resistance and a distinctive appearance. Benefits: - Enhanced rear suspension performance and handling for both street and track use. - Reduced overall vehicle weight for improved acceleration and braking. - Customizable rear suspension setup to suit driving preferences and conditions. - Improved suspension response and feel for a more engaging driving experience.

Material: AL2024 Billet Aluminum
Finish: Clear Anodized
Bushings: Polyurethane
Weight Reduction: Over 25% lighter than stock

Install Guide:

Installation is straightforward with included hardware. Professional installation is recommended to ensure proper alignment and optimal performance.

Recently viewed