Go to main content

Klättermusen Brage 2.0 Salopette W's | Dark Khaki

Brage 2.0 Salopette

599.00 GBP

Waterproof Pants
Brage 2.0 Salopette
Brage 2.0 Salopette
Brage 2.0 Salopette
Brage 2.0 Salopette
Brage 2.0 Salopette
Brage 2.0 Salopette
Brage 2.0 Salopette
Brage 2.0 SalopetteBrage 2.0 SalopetteBrage 2.0 SalopetteBrage 2.0 SalopetteBrage 2.0 SalopetteBrage 2.0 SalopetteBrage 2.0 Salopette
Waterproof Pants

Brage 2.0 Salopette

Women's Mountaineering Shell Pants

599.00 GBP

Merlot
    Brage 2.0 SalopetteBrage 2.0 SalopetteBrage 2.0 SalopetteBrage 2.0 SalopetteBrage 2.0 Salopette
    Fit: Relaxed Fit

    Free Shipping for Members

    Free Returns

    Product Lifetime Warranty

    oculus-icon

    Oculus®

    skiing-icon

    Skiing

    waterproof-icon

    Waterproof

    Equipment No: 15593W12151

    The Brage 2.0 pants are a pair of backcountry skiing and alpine skiing stretchy and flexible shell high pants.

    Brage 2.0 has been refined to be as a durable, versatile, and sustainable 3-layer pant as possible. Designed for use with ski boots Brage has built-in snow gaiters. The rear, knee, and lower leg are reinforced with Duracoat™ for extra durability. Brage is fluorocarbon-free and made from our proprietary Oculus® 100% post-consumer recycled polyester (Pertex® Shield Revolve).


    Advantages
    *Taped seams for complete waterproofness
    *Two-way ventilation zips on outside thigh
    *Drop seat function
    *Adjustable hem with snow gaiter inside
    *High waist with detachable and adjustable suspenders
    *Duracoat™ reinforcements on rear, knees, inside lower leg and bottom hem
    *Soft fabric on inside of back waist to protect laminate against sweat
    *RECCO® Reflector

    Brage 2.0 Salopette

    text

    The Mass Flow Resistance System

    The Mass Flow Resistance (MFR) system helps you decide which wind and waterproof equipment to select for your next adventure. MFR combines the technical aspect of how easily air can pass through a fabric, and how much surrounding air will cool you, as well as how efficiently heat will be transported away.