32 Degrees Heat Base Layer Thermal Scoop Neck Women's Long Sleeve T-Shirt NWT

$ 5.81

Occasion: Activewear, Casual, Travel Model: Cozy Heat Extra Warm Pattern: Solid Style: Pullover MPN: TL0FL801ME Personalize: No Type: T-Shirt Fit: Regular Theme: Designer, Sports Neckline: Scoop Neck Handmade: No Features: All Seasons, Collarless, Moisture Wicking, Quick Dry, Thermal Color: Black Vintage: No Sleeve Length: Long Sleeve Closure: Pullover Size Type: Regular Season: Fall, Spring, Summer, Winter Brand: 32 Degrees Product Line: 32 Degrees Heat Performance/Activity: CrossFit, Cross Training, Dance, Gym & Training, Hiking, Pilates, Running & Jogging, School, Walking, Yoga Garment Care: Machine Washable Country of Origin: Vietnam Fabric Type: Knit Department: Women Material: Polyester, Spandex Size: S

Description

32 Degrees Heat Base Layer Thermal Scoop Neck Women's Long Sleeve T-Shirt NWT. Stay warm and comfortable all year round with the 32 Degrees Heat Base Layer Thermal Scoop Neck Women's Long Sleeve T-Shirt. Made from a blend of polyester and spandex, this pullover shirt features a scoop neck and long sleeves, making it perfect for travel, activewear, or casual wear. With features like moisture-wicking and quick-drying technology, this thermal shirt is ideal for various activities like gym training, walking, and even running. The black color and solid pattern add a versatile touch to your wardrobe, while the designer brand ensures quality and performance. Stay warm and comfortable all year round with the 32 Degrees Heat Base Layer Thermal Scoop Neck Women's Long Sleeve T-Shirt. Made from a blend of polyester and spandex, this pullover shirt features a scoop neck and long sleeves, making it perfect for travel, activewear, or casual wear. With features like moisture-wicking and quick-drying technology, this thermal shirt is ideal for various activities like gym training, walking, and even running. The black color and solid pattern add a versatile touch to your wardrobe, while the designer brand ensures quality and performance.