Modern RSV4 performance starts with the rotating mass

The current generation of the Aprilia RSV4 and RSV4 1100 Factory is uncompromisingly designed for performance. However, even high-end production bikes hide enormous optimization potential: the rotating mass of the clutch.

With the TGP MotoRacing Hyperdiscs aluminum clutch discs, you enhance exactly this aspect. By replacing the stock steel intermediate plates with coated aluminum discs, you drastically reduce the weight in the clutch pack – without modifications to the engine, without risk, with maximum effect.

Same dimensions – maximum effect

The Hyperdiscs for the RSV4 / RSV4 RR / RSV4 1100 Factory (21–26) are dimensionally identical to previous generations but perfectly tuned to the demands of modern Electronics, higher RPMs, and sporty riding styles.

With a weight of only about 1/3 of the original steel discs, up to 700 grams of rotating mass can be saved – one of the most efficient tuning measures available.

Tangible benefits on every ride

• More direct revving & faster acceleration

• Improved steering response due to lower gyroscopic forces

• Reduced tendency of the rear wheel to stamp during aggressive downshifting

• Significantly better heat dissipation for consistent clutch feel on the road and racetrack

Especially in sporty riding, track days, or racetrack use, the optimized clutch provides more confidence, precision, and control.

Technical specifications & fit

• Vehicles:

  • Aprilia RSV4

  • Aprilia RSV4 RR

  • Aprilia RSV4 1100 Factory

• Model years: 2021–2026

• Scope of delivery: 9 aluminum intermediate plates

• Dimensions: 47.5 / 48.0 mm

• Clutch pack: 18.0 mm (9 × 2.0 mm)

• Item number: T1129

• Note: Dimensions identical to earlier model generations

Our recommendation for maximum performance

For optimal function and durability, we recommend the simultaneous installation of new racing friction discs. The combination of fresh friction discs and lightweight aluminum intermediate plates ensures clean disengagement, stable power transfer, and consistent performance even under extreme loads.