SRAM RED eTap AXS XG-1290 E1 cassette 12 Speed 10-33T
Effortless Shifting with SRAM RED eTap AXS Cassette
RED eTap AXS XG-1290 is SRAM's lightest and most durable cassette, designed for electronic shifting and compatible with both road and gravel setups. Choose a meticulously crafted design that ensures you're in the right gear when standing on the pedals during a climb or a sprint.
Benefits:
- Better Gearing: SRAM designed the RED eTap AXS with a 10-tooth start, so you can achieve optimal performance from your gears on all your rides.
- 12-speed cassette - 10-33T
- Designed for Electronic Shifting: The cassette is specially designed for electronic gears, ensuring optimal performance.
- XDR Cassette Body
- X-DOME Design: Crafted from a single piece of steel, providing a strong and lightweight component.
With the SRAM RED eTap AXS XG-1290 E1, you get a cassette that keeps you in the right gear, whether you're cycling up steep hills or preparing for a sprint. A strong choice for those who expect both performance and reliability from their components.
Effortless Shifting with SRAM RED eTap AXS Cassette
RED eTap AXS XG-1290 is SRAM's lightest and most durable cassette, designed for electronic shifting and compatible with both road and gravel setups. Choose a meticulously crafted design that ensures you're in the right gear when standing on the pedals during a climb or a sprint.
Benefits:
- Better Gearing: SRAM designed the RED eTap AXS with a 10-tooth start, so you can achieve optimal performance from your gears on all your rides.
- 12-speed cassette - 10-33T
- Designed for Electronic Shifting: The cassette is specially designed for electronic gears, ensuring optimal performance.
- XDR Cassette Body
- X-DOME Design: Crafted from a single piece of steel, providing a strong and lightweight component.
With the SRAM RED eTap AXS XG-1290 E1, you get a cassette that keeps you in the right gear, whether you're cycling up steep hills or preparing for a sprint. A strong choice for those who expect both performance and reliability from their components.