Speed Fiber 15296 HIGH TAIL SUBFRAME +23 mm HRC NSF 250

227,48 

The Speed Fiber 17345 TAIL +23mm HI. -45mm DEL. HRC NSF 250 provides top-notch performance and ergonomics for riders of all levels. Its advanced design, customized height adjustment, and durable construction ensure enhanced comfort, control, and reliability. Compatible with the NSF 250 chassis, it epitomizes motorcycle customization, offering an unparalleled riding experience and maximizing the bike’s potential.

SKU: 15296 Categories: , , Tags: ,

Description

Speed Fiber 15296

Key Additional Benefits

  • Optimization of Performance: The Speed Fiber 15296 High Tail Subframe +23 mm HRC NSF 250 is designed to offer a significant improvement in your vehicle’s performance. With its construction in reinforced aluminum, this substructure provides a solid and lightweight foundation, allowing for optimal weight distribution and increased agility on the track.
  • Durability and Strength: Durability is key in the world of competition. This high-quality substructure is manufactured with top-tier materials and advanced production processes to ensure exceptional resistance against the extreme demands of the circuit. Its ability to withstand the tensions and forces generated during high-speed driving ensures consistent and reliable performance in every race.
  • Enhanced Handling and Control: With a +23 mm increase in tail height, the Speed Fiber 15296 High Tail Subframe optimizes the vehicle’s balance, improving stability in corners and providing a superior sense of control to the driver. This feature is especially beneficial on circuits with tight corners and rapid directional changes, where precision and immediate response are crucial.

Key Features

  • Lightweight: Weighing just 567 grams, this aluminum substructure is notably lightweight, reducing unsprung mass and improving the vehicle’s agility without compromising structural strength. This efficiency-focused design allows for faster acceleration and greater responsiveness in all driving conditions.
  • Reinforced Aluminum Construction: The use of reinforced aluminum provides an exceptional combination of strength and lightweight properties. This material is known for its high resistance to corrosion and its ability to withstand dynamic loads, making it the ideal choice for high-performance applications in the automotive competition realm.
  • Competition-Specific Design: The Speed Fiber 15296 High Tail Subframe has been meticulously designed and tested under competition conditions to ensure optimal performance on the circuit. Every aspect of its design, from geometry to mounting points, has been optimized to maximize aerodynamic efficiency, stability, and vehicle control at high speeds.

This substructure represents an essential component for those looking to enhance the performance and competitiveness of their vehicles in the demanding world of motor racing. With its unique combination of additional benefits and cutting-edge features, the Speed Fiber 15296 High Tail Subframe is the perfect choice for those aiming to achieve excellence on the track.

Additional information

Information:

-Lightweight: Weighing just 567 grams, this aluminum substructure is notably lightweight, reducing unsprung mass and improving the vehicle's agility without compromising structural strength. This efficiency-focused design allows for faster acceleration and greater responsiveness in all driving conditions.
-Reinforced Aluminum Construction: The use of reinforced aluminum provides an exceptional combination of strength and lightweight properties. This material is known for its high resistance to corrosion and its ability to withstand dynamic loads, making it the ideal choice for high-performance applications in the automotive competition realm.
-Competition-Specific Design: The Speed Fiber 15296 High Tail Subframe has been meticulously designed and tested under competition conditions to ensure optimal performance on the circuit. Every aspect of its design, from geometry to mounting points, has been optimized to maximize aerodynamic efficiency, stability, and vehicle control at high speeds.