FIZIK Saddle Adaptive Antares Versus Evo R1 - Black
HomeStore

FIZIK Saddle Adaptive Antares Versus Evo R1 - Black

FIZIK Saddle Adaptive Antares Versus Evo R1 - Black

Enhance your cycling performance with the Fizik Adaptive Versus Evo R1 saddle. Featuring Carbon® Digital Light Synthesis™ 3D printing technology, this saddle provides zonal cushioning for maximum comfort. The Versus Evo design includes a flexible structure and full channel design to alleviate pressure on soft tissue areas. The R1 model combines a carbon reinforced nylon shell with a stiff carbon rail for optimal power transfer. Specifically designed for road racing, this saddle is the result of the Fizik Concepts programme, a collaboration of industry experts and academics dedicated to improving cycling performance.
  • Adaptive: Carbon® Digital Light Synthesis™ 3D printing technology, offering seamlessly engineered zonal cushioning
  • Versus Evo: Engineered with a degree of flexibility and a full channel design for pressure relief on soft tissue area
  • R1: A combination of a ride compliant carbon reinforced nylon shell and a highly stiff carbon rail
  • Intended use: road racing
  • Concepts: this is a product of the fizik Concepts programme, a cross-disciplinary collaboration of leading industry experts and academics carrying out research and analysis on technology, design, physiology and bikefitting in search of ways to improve cycling performance.
Select Size
From $102.36

Original: $292.45

-65%
FIZIK Saddle Adaptive Antares Versus Evo R1 - Black

$292.45

$102.36

More Images

FIZIK Saddle Adaptive Antares Versus Evo R1 - Black - Image 2

FIZIK Saddle Adaptive Antares Versus Evo R1 - Black

Enhance your cycling performance with the Fizik Adaptive Versus Evo R1 saddle. Featuring Carbon® Digital Light Synthesis™ 3D printing technology, this saddle provides zonal cushioning for maximum comfort. The Versus Evo design includes a flexible structure and full channel design to alleviate pressure on soft tissue areas. The R1 model combines a carbon reinforced nylon shell with a stiff carbon rail for optimal power transfer. Specifically designed for road racing, this saddle is the result of the Fizik Concepts programme, a collaboration of industry experts and academics dedicated to improving cycling performance.
  • Adaptive: Carbon® Digital Light Synthesis™ 3D printing technology, offering seamlessly engineered zonal cushioning
  • Versus Evo: Engineered with a degree of flexibility and a full channel design for pressure relief on soft tissue area
  • R1: A combination of a ride compliant carbon reinforced nylon shell and a highly stiff carbon rail
  • Intended use: road racing
  • Concepts: this is a product of the fizik Concepts programme, a cross-disciplinary collaboration of leading industry experts and academics carrying out research and analysis on technology, design, physiology and bikefitting in search of ways to improve cycling performance.

Product Information

Shipping & Returns

Description

Enhance your cycling performance with the Fizik Adaptive Versus Evo R1 saddle. Featuring Carbon® Digital Light Synthesis™ 3D printing technology, this saddle provides zonal cushioning for maximum comfort. The Versus Evo design includes a flexible structure and full channel design to alleviate pressure on soft tissue areas. The R1 model combines a carbon reinforced nylon shell with a stiff carbon rail for optimal power transfer. Specifically designed for road racing, this saddle is the result of the Fizik Concepts programme, a collaboration of industry experts and academics dedicated to improving cycling performance.
  • Adaptive: Carbon® Digital Light Synthesis™ 3D printing technology, offering seamlessly engineered zonal cushioning
  • Versus Evo: Engineered with a degree of flexibility and a full channel design for pressure relief on soft tissue area
  • R1: A combination of a ride compliant carbon reinforced nylon shell and a highly stiff carbon rail
  • Intended use: road racing
  • Concepts: this is a product of the fizik Concepts programme, a cross-disciplinary collaboration of leading industry experts and academics carrying out research and analysis on technology, design, physiology and bikefitting in search of ways to improve cycling performance.