Classic Polo
Clean, timeless, and performance-ready—the Classic Polo in White blends traditional style with forward-thinking functionality. Designed with a customized jacquard stripe pattern on the collar and sleeve rib, it brings subtle texture to a polished silhouette. Whether you're teeing off or heading into town, this polo makes every move feel intentional.
Crafted from a COOLMAX and Sorona pique fabric blend, it delivers breathable comfort, moisture-wicking performance, and all-day wearability. The high-low hem and side slits add ease of movement and a tailored finish, while printed HEAD logos at the front and back maintain a clean, modern aesthetic.
Designed to Move. Built to Play.
• Customized jacquard stripe collar and sleeve rib for refined detail
• COOLMAX and Sorona pique blend for moisture-wicking and breathability
• Quick-dry functionality supports active, all-day wear
• High-low hem and side slits for modern mobility
• Printed HEAD logos at front and back for clean branding
• Versatile white colorway for effortless pairing
Coolmax: 57% , Sorona: 43%
Complimentary shipping on orders over 150 USD. For orders outside of the US, duties will be calculated at checkout.
Our COOLMAX and Sorona®polyester pique combines advanced technology and eco-conscious innovation, making it a standout in performance textiles. At 165 GSM, this lightweight pique fabric is designed for both comfort and functionality, offering a modern solution for activewear and casual apparel. The fusion of COOLMAX and Sorona®ensures the perfect balance between breathability, durability, and sustainability.
- Coolmax®HT
- Sorona®HT
- UPF 50+
- Moisture-Wicking
- 4-Way Stretch
- Oeko Tex
- Washing: Machine wash in cold water using a gentle cycle and mild detergents. Avoid bleach and harsh chemicals.
- Drying: Tumble dry on low or line dry to preserve fabric stretch and texture.
- Ironing: Use a low-heat setting if needed, but avoid direct heat to maintain the integrity of COOLMAX and Sorona®fibers.
- Avoid Fabric Softeners: These may coat the fibers, reducing moisture-wicking efficiency.