T2 HIKING ECO UNISEX SOCKS

, , REF: 6310454

$18.45

GREEN
XXS
XS
S
M
L
XL
Lightweight and breathable Lorpen sock with the main material made from recycled bottles. For those who are starting out in the world of trekking.

48%Red-Cycled nylon 45%Polyester Repreve 7%Stretch Nylon with Lycra

Features

Reinforcement: Toe & Heel
Cushioned: Toe & Heel
AutumnSpringSummerWinter
Season: Autumn Spring Summer
Thin (1/4)Medium (2/4)Thick (3/4)Very Thick (4/4)
Thickness: Medium (2/4)

Technology

T2

Technology for technical socks with two differentiated layers of yarn, blending different types of fibers to offer limited performance for athletes.

Fibers

Ecofresh

Lorpen's new ECOFresh fiber used in T2 models comes from Unifi® and is comprised of 50% Sorbtek® polyester and 50% Repreve® polyester, both from 100% recycled plastic bottles. This yarn wicks moisture away 3 times faster than its competition thanks to Catch-Move-Release™ technology.

Red Cycled Nylon

Red-Cycled Nylon yarn is 100% made with fish nets whose useful life in the fishing industry has come to an end. Instead of becoming a hazard at the bottom of the ocean or garbage elsewhere, they are recycled into a new nylon yarn. This continuous fiber yarn is characterized by its strength and cushioning capacity. This is the fiber that is most resistant to wear and tear.

Stretch Nylon with Lycra

Lycra is a synthetic elastane fiber that can stretch up to six times its length and go back to its original state again and again. Its strategic placement in the outer layer of Lorpen socks guarantees a long life for our socks. Along with Nylon, Lycra is characterized by its strength and cushioning capacity.

Composition

Technical composition: 48%Red-Cycled nylon 45%Polyester Repreve 7%Stretch Nylon with Lycra

Legal composition: 54%Polyamide 45%Polyester 1%Elastane

* The technical composition offers details on the type of thread and material. The legal composition refers to the net amount of each material. Differences between the two compositions may arise in socks made with more than one material.