Description
Keen Women’s Newport H2 Sandal – Rugged, Water-Ready Adventure Sandal
The Keen Women’s Newport H2 Sandal is designed for adventure seekers who need a durable, water-friendly, and comfortable sandal that can handle both land and water activities. Whether you’re hiking, kayaking, or exploring new trails, this sandal offers superior traction, toe protection, and all-day comfort.
Key Features:
✔ Quick-Dry Webbing – Water-resistant polyester webbing dries quickly for all-day wear
✔ KEEN.PROTECT Toe Cap – Iconic toe bumper guards against rocks and debris
✔ Secure Fit Lace System – Adjustable bungee cord for a snug and customized fit
✔ EVA Midsole – Lightweight cushioning for superior comfort
✔ Multi-Directional Lugs – High-traction rubber outsole for grip on wet and dry surfaces
✔ PFC-Free Durable Water Repellent (DWR) – Eco-friendly protection against moisture
Built for Land & Water Adventures
The hydrophobic mesh lining ensures quick drying, making it perfect for river crossings, beach walks, and wet conditions. The razor-siped outsole delivers grip and stability, preventing slips on wet rocks or boat decks.
Superior Comfort & Protection
✔ Metatomical Footbed – Contoured arch support for long-lasting comfort
✔ EVA midsole absorbs shock, reducing foot fatigue
✔ Adjustable lace-lock system ensures a secure yet flexible fit
✔ Non-marking rubber outsole prevents scuff marks on boat decks or floors
Sustainable & Eco-Friendly
✔ PFC-Free Water Repellent – Environmentally friendly material treatment
✔ Recycled PET Plastic – Contributes to sustainability efforts
✔ Cleansport NXT™ Technology – Natural odor control keeps feet fresh
Size & Fit:
- True to size fit with a roomy toe box for natural foot movement
- Available in medium width
- Adjustable bungee cord lacing system for a customizable fit
Why Adventurers Love It:
✔ Perfect for hiking, water sports, and outdoor exploration
✔ Secure, adjustable fit with excellent arch support
✔ Quick-drying, breathable materials for all-day comfort
✔ Durable, grippy outsole for traction on all surfaces
