On Cloudsurfer Women's Running Shoes
The training shoe with computer-optimised technology for next-level cushioning.
Engineered Mesh Upper
For optimised breathability and complete comfort, the Cloudsurfer Running Shoes utilise an engineered mesh upper, allowing your feet to remain cool and comfortable during training. Perforations within the fabric mean that air can flow freely through the shoes to allow your feet to remain cool even during the more intense sessions of your training. Not only this, but the shoes have moisture-wicking properties, meaning moisture and sweat can be effectively removed from inside the shoes to keep your feet dry. The shoes have been designed without plastic overlays and built using 30% recycled materials, with water-saving dope dye technology. Providing a secure, locked-in fit, the shoes have a traditional lace-up closure, preventing in-shoe slipping and ensuring you're provided with a precise fit.
Advanced Midsole and Outsole
Using Finite Element Analysis (FEA) and invaluable insights the Cloudsurfer running shoes utilise their computer-generated midsole compound called CloudTec Phase. This newly designed cushioning technology still uses On's unique cloud construction in a Helion superfoam, however, updated with a softer, more-cushioned design. This new cloud construction seamlessly collapses like dominos when your foot lands, providing you with supreme, enhanced cushioning and a softer, smoother transfer from heel to toe. The propulsive nature of the shoes allows your foot to stride naturally. What happens between landing and takeoff is crucial to your comfort. That's why CloudTec Phase emphasizes both soft landings and a seamless weight transfer from heel to toe. Helion superfoam combines rigid, stable sections with more flexible foam elements along the same molecular chains. This combination eliminates the need for two separate materials allowing you to crush your road runs and shine across any other surface. To provide durable traction in wet and dry conditions, the shoes have thin and lightweight rubber pads.