Unisex Ski Socks

These Unisex Ski Socks are engineered with a 144-needle count (144N) terry construction, optimized for thermal regulation and impact protection in sub-zero environments. The fabric integrates 80% Acrylic, 18% Polyester, and 2% Spandex. The acrylic component mimics the insulating properties of wool to retain heat, while the polyester increases the textile's tensile strength and moisture-wicking efficiency. Available in sizes 9-11 and 10-13, the socks utilize a precision-knit 144N structure to minimize bulk while maximizing the density of the internal cushioning loops.

Core Advantages
144N Terry Engineering: The 144-needle density provides a refined fabric surface that reduces skin irritation and enhances the durability of the internal terry loops.
Zonal Cushioning: Strategically placed padding from the footbed to the shin area creates a thermal air barrier and provides mechanical damping against boot pressure.
Elastic Compression: The 2% spandex ratio ensures a secure fit that conforms to the anatomical contours of the foot, preventing material bunching during high-velocity movements.

Product Specifications
Sizing: Available in 9-11 and 10-13.
Material Composition: 80% Acrylic, 18% Polyester, 2% Spandex.
Knit Structure: 144-needle count with full-leg terry lining.
Height: Over-the-calf design for full integration with ski and snowboard boots.

Application Scenarios
Alpine Skiing and Snowboarding: Functions as a protective layer between the shin and the boot tongue to mitigate friction.
Winter Trekking: Serves as a primary thermal layer for hiking in snow or freezing conditions.
Cold-Storage/Outdoor Work: Suitable for professionals requiring consistent foot warmth during prolonged static exposure to low temperatures.

Maintenance and Precautions
Laundering Instructions: Machine wash cold (below 30°C). Avoid bleaching agents.
Drying Guidelines: Tumble drying on high heat is not recommended as it may degrade the elastic fibers and affect the soft texture of the acrylic blend.
Pilling Management: Synthetic blends may exhibit minor surface fuzzing after repetitive friction; this is a standard physical characteristic and does not impact the thermal insulation rating.

Component
80% Acrylic
18% Polyester
2% Elastane