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Front Air Dam / Splitter Corvette 2014-18 #FA-207007  | APR Performance
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Front Air Dam / Splitter Corvette 2014-18 #FA-207007 | APR Performance

Front Air Dam / Splitter Corvette 2014-18 #FA-207007 | APR Performance

$606.86

Original: $1,733.88

-65%
Front Air Dam / Splitter Corvette 2014-18 #FA-207007 | APR Performance

$1,733.88

$606.86

The Story

Front Air Dam / Splitter for
Chevrolet Corvette C7

Aerodynamic vehicle components for track and street.

Underbody components such as front air dams, undertrays, and rear diffusers are essential for maximizing aerodynamic performance.

The APR Performance Front Air Dam integrates with the factory front bumper to:

  • Reduce lift.
  • Increase front-end stability.
  • Improve high-speed cornering grip


This Front Air Dam also utilizes a built-in aerodynamic splitter design that creates a high-pressure region of air atop the protruding surface, further reducing lift and increasing net downforce.
Front Air Dam / Splitter Corvette 2014-18 #FA-207007  | APR Performance - Image 2

Details & Craftsmanship

Every detail has been carefully considered to bring you the perfect product.

Front Air Dam / Splitter Corvette 2014-18 #FA-207007  | APR Performance - Image 3

Details & Craftsmanship

Every detail has been carefully considered to bring you the perfect product.

Front Air Dam / Splitter Corvette 2014-18 #FA-207007  | APR Performance - Image 4

Details & Craftsmanship

Every detail has been carefully considered to bring you the perfect product.

Description

Front Air Dam / Splitter for
Chevrolet Corvette C7

Aerodynamic vehicle components for track and street.

Underbody components such as front air dams, undertrays, and rear diffusers are essential for maximizing aerodynamic performance.

The APR Performance Front Air Dam integrates with the factory front bumper to:

  • Reduce lift.
  • Increase front-end stability.
  • Improve high-speed cornering grip


This Front Air Dam also utilizes a built-in aerodynamic splitter design that creates a high-pressure region of air atop the protruding surface, further reducing lift and increasing net downforce.