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Klättermusen Heidrun 2.0 Shorts Unisex | Burnt Russet

Heidrun 2.0

4 499 SEK

Shorts
Heidrun 2.0
Heidrun 2.0
Heidrun 2.0
Heidrun 2.0
Heidrun 2.0
Heidrun 2.0
Heidrun 2.0
Heidrun 2.0Heidrun 2.0Heidrun 2.0Heidrun 2.0Heidrun 2.0Heidrun 2.0Heidrun 2.0
Shorts

Heidrun 2.0

Unisex Down Shorts

4 499 SEK

Burnt Russet
    Fit: Regular Fit

    Free Shipping for Members within EU

    Free Returns

    Product Lifetime Warranty

    box-construction-icon

    Box Construction

    expedition-icon

    Expedition

    mfr-8-icon

    MFR 8

    rds-icon

    RDS-Certified Down

    Equipment No: 15566U81230

    Heidrun 2.0 are a pair of lightweight and easy to use down shorts for keeping legs and hips warm during breaks and downtime.

    These 800+ Fill Power down shorts end just below the knee and have press studs down the sides, which make them easy to put on and take off. The fit is loose and the closures are adjustable. The hem over the knees is asymmetric, and the knees are pre-bent. The rear and knees are reinforced for durability. A mesh bag is provided for compressed packing, but remember not to store the shorts compressed for long periods. The outer material is recycled polyamide, and the 800+ Fill Power down is approved and RDS certified. The Heidrun Shorts are a fluorocarbon-free product.

    Advantages

    • Side snap buttons allow for quick and easy application over outer garments
    • Reinforced rear and knees allowing for physical activity and seating on rough material
    • Elasticated waist with draw cord allows you to dial in a secure fit.
    • Pre-bent knees and asymmetric, elasticated hem provide freedom of movement
    • Box construction reduces cold spots
    • Folds into its own pocket for storage
    • Down weight (M) 44 g
    Heidrun 2.0

    hcr

    The Heat Conductivity Resistance System

    The Heat Conductivity Resistance (HCR) system is a performance value for thermal equipment that measures the warmth of a piece on a scale of 3 to 9, with 9 providing the most warmth. HCR combines the difference in insulation materials, external conditions, and body sensitivity.