Endura Women's FS260-Pro Thermo Tights (Black) (w/ Chamois) (S)

Endura Women's FS260-Pro Thermo Tights (Black) (w/ Chamois) (S)
Back Order Now
You may back order this item and it will ship when it arrives.
Price: $129.99 (Save 53%)
Sale: $61.09

Please Log in to receive a notification when this item arrives in stock.

Save In List
Note: Manufacturer does not allow coupons
This item earns up to 61 VIP Reward Points Learn More

Endura Women's FS260-Pro Thermo Tights Description:

Endura designed the FS260-Pro Thermo Tights to make riding in the cooler months that much more enjoyable. High-stretch thermal fabric provides comfortable insulation with eco-friendly PFC-free DWR M water repellency to keep you warm and dry. Italian 600 Series Chamois Pad features a multi-density foam construction with gel inserts to provide excellent comfort for endurance riding across many cycling disciplines. Ride faster and farther in cooler temps with the FS260-Pro Thermo Tights.


  • Luxurious Thermoroubaix fabric with DWR M treatment provides insulation, comfort, and water repellency
  • PFC-Free, non-toxic durable water repellent finish
  • Women’s 600 series pad, computer cut “Continuously Variable Profile” (CVP) stretch pad with gel inserts and antibacterial finish
  • Bonded cuff with raw edge cuff for a snug fit at ankle
  • Ankle zip for easy access
  • Reflective accents boost visibility in low light


  • Garment Type: Tights
  • Gender: Women
  • Manufacturer Fit: Standard Fit
  • Discipline: Road & Gravel
  • Season: Cool Weather
  • Fabric: Elastane 12%, Polyester 37%, Nylon 51%
  • Chamois: Women's 600 Series Pad
  • Inseam: -
  • Pockets: No
  • Application: -
  • Visibility: Reflective
  • Color: Black

This product was added to our catalog on November 6, 2023

Circumference (in)
Circumference (cm)
2XS25 - 26"64 - 67cm
XS27 - 28"68 - 72cm
S29 - 30"73 - 78cm
M31 - 32"79 - 83cm
L33 - 34"84 - 87cm
XL35 - 36"88 - 92cm
2XL37 - 38"93 - 97cm

Note: All measurements are provided by the manufacturer and may vary depending on how measurements are acquired.