Product Details
Universal GT-1000 Adjustable Swan Neck Rear Wing by APR Performance®. Spanning up to 71" over its optimized 2D airfoil shape, the APR Performance GTC-1000 Adjustable Wing supplies extreme downforce in widebody sports and touring car applications.
Notes
- For custom-mount pedestal locations. Pedestal is NOT included.
Specifications
Length: 71" |
Custom fabrication Required Chassis mount only |
Material: Carbon Fiber |
Third Brake Light: Without |
Quantity: 1 Piece |
Pattern: 2x2 twill weave |
Coating: UV-stable clear coat |
Mounting: 6061 billet aluminum upper brackets (no pedestals or bottom mounting bases included), custom fabrication of pedestals and chassis-mounts required |
Includes
- Adjustable Rear Wing
- Mounting Hardware: Stainless-steel machine screws, washers, and nuts
Features
- Ultra-high downforce, up to 1650 pound force (lbf) of downforce (at 160 MPH)
- Angle adjustment holes allow for easy tuning of downforce
- Reinforced pre-preg carbon fiber withstands extreme loads
- Dual element design allows less air separation at high angles of attack and reduced drag at low angles of attack
- Angle-of-Attack (AOA) adjustment range runs from 10 to 52 degrees (relative to ground plane) on the secondary airfoil, with no stall at 52 degrees
- The GT Series airfoils are composed of lightweight and durable pre-preg carbon fiber composite materials for superior strength and low weight
- Modeled in 3D and validated using Computational Fluid Dynamics (CFD), the APR Performance GT-1000 Adjustable Wing is designed to adapt to a variety of widebody sports and touring car applications
- Built to take quality to a new level and deliver peak performance
- Meticulously engineered with top-of-the-line technology
- Expertly built from super strong yet lightweight materials
- Thoroughly tested to withstand extreme conditions
Since 1999, APR Performance® has been a market leader in producing and manufacturing high quality aerodynamic performance products for the aftermarket automobile industry. Computational Fluid Dynamics (CFD) analysis, combined with real-world track testing, help to ensure products meet stringent performance specifications. Proprietary manufacturing processes utilizing pre-preg. carbon fiber composites help to produce products that are durable, lightweight, and of the highest quality.