Pearl Izumi AmFIB Lite Gloves (Black) (M)

Pearl Izumi AmFIB Lite Gloves (Black) (M)
Back Order Now
You may back order this item and it will ship when it arrives.
$4.99 flat rate shipping! Learn More
Price: $55.00

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 55 VIP Reward Points Learn More

Pearl Izumi AmFIB Lite Gloves – what makes these midweight gloves special is that there is no tradeoff between insulating warmth and handlebar feel, making them indispensable for fall and early spring riding. Designed with 60g Primaloft Gold w/Crosscore technology on the back of the hand, which incorporates Aerogel particles for maximum warmth with minimal bulk. The Ax Suede Laredo palm remains insulation-free; creating a glove that insulates you from the elements, but doesn't restrict control of the bike. The main body fabric provides wind protection with excellent dexterity and the synthetic leather palm makes the glove as grippy as it is durable. This is Pearl Izumi's most sensitive insulated glove.

Features:

  • 60g Primaloft Gold w/ Crosscore technology insulation, which is made from 35% post-consumer recycled polyester and incorporates Aerogel particles for maximum warmth with minimal bulk
  • AmFIB Softshell back of hand fabric protects from wind and water
  • Ax Suede Laredo synthetic leather palm for durability and great grip
  • Touch screen compatible index finger and thumbs

Specifications:
Gender: Universal
Application: Insulated, Multi-Element
Palm Padding: -
Touchscreen Compatible: Yes
Thumb Wipe: -
Visibility: -
Color: Black

This product was added to our catalog on July 14, 2021

Measurement Guide:

  • Measure hand circumference at widest part of the hand not including the thumb
Hand Circumference (in)Hand Circumference (cm)
S7.25 - 8"18.5 - 20.3cm
M8 - 8.75"20.3 - 22.2cm
L8.75 - 9.5"22.2 - 24cm
XL9.5 - 10.25"24 - 26cm
2XL10.25 - 11"26 - 28cm

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