Maggie Stretch Indoor Cushioned Non Slip Grip Thermal Socks
Regular price$23.94Sale price$11.97
Unit price/ per
Pleasure and comfort slip right onto your feet!
Stay cozy and warm at all times – be it relaxing or exercising with this Maggie Stretch Indoor Cushioned Non-Slip Grip Thermal Socks! The perfect combination of comfort and warmth made for you.
Designed for ultimate insulation, you can now stay warm and cozy while lounging at home or enjoying some indoor yoga! It also features non-slip silicone grips to keep you safe and secure on slippery floors. A hygienic alternative for bare feet when doing exercise but also perfect for home, gym, or travel use. Make them a comfortable statement!
Super Soft and Luxurious– Fluffy soft inner lining for the perfect comfort wearing and luxurious feeling.
Ideal for relaxing and exercising– Designed for ultimate cold insulation, you can now stay warm and cozy while lounging at home or enjoying outdoor activities without looking bulky!
Non-Slip Grip Feature– The anti-slip grips on the bottom of the socks are made of natural silicone. The non-skid dots on the bottom prevent you from slipping and falling. Designed for exercise but perfect for home, gym, hospital, or travel to be a hygienic alternative to bare feet.
Keep your feet warm– The fuzzy opening provides greater softness and comfort, keeps your feet warmer during cold weather.
Moisture Wicking Material– The pad of the sole is thin, which is accurately designed to maintain the softness while keeping your feet comfortable, especially on the floor and carpet. Moisture-wicking fabric keeps your feet dry and comfortable.
Stretchy & Great Fit– Stretchy and tight enough to provide a snug fitting and even compression. Designed to maintain elasticity for a long time, making your feet comfortable.
Material: Polyester + Spandex
Colors: Black, Red, Hot Pink, Purple, Blue, Coffee
Size: One size
1 X Maggie Stretch Indoor Cushioned Non-Slip Grip Thermal Socks
SHIPPING DELAY NOTICE Please be expected 2-4 weeks shipping delay due to High Volume of Order