Description
Updated version of Gale sneaker, with same generous last and super comfy BoomaxX midsole, but now with CoolmaxX mesh lining, and light weight and breathable, yet very strong jacquard knit upper. Suitable for walking, training and leisure use.
Breathable, washable, light weight and comfortable.
Upper mesh made from recycled polyester. Lining moisture wicking and temperature control Coolmax polyester mesh. Midsole is super soft and energy returning BoomaxX ETPU foam. Outsole TPR.
Main purpose of use: Active and Free time
- Lace-up shoe
- Light weight and breathable
- Removable anatomically designed insole
- Coolmax mesh upper
- Strong jacquard-knit upper
- Lightweight phylon midsole
- Material 1: Jacquard mesh upper. Jacquard knit mesh upper shoes
- Material content: 70% Recycled polyester / 30% Polyester
- Material 2: TPU high-freaquency print
- Material content: 100% TPU
- Material 3: Lycra lining
- Material content: 10% Elastane / 90% Polyester
- Outsole: BoomaxX midsole with TPR outsole
- Foot bed: COMFORT removable antibacterial and anatomical
- Technologies: Coolmax FreshFX, Halti BoomaxX
- Certificates & Eco Labels:
-
- Available sizes: 40, 41, 42, 43, 44, 45, 46, 47
Footwear size guide can be found HERE.
- If the shoes get wet, or after wash, dry them at room temperature or in a low temperature dryer cabinet, max. 40° degrees. Never dry on a radiator or in a hot sauna. Good air conditioning is desirable. Paper can be used inside the shoe, to absorb moisture.
- Sofsthell and other textile shoes can be washed by hand in lukewarm water with mild soap. Please note that due to the multi-layer structure of DrymaxX shoes, they take a long time to dry and therefore washing should be avoided.
- Protect clean unused shoes with a suitable protective spray. First try in an inconspicuous spot to make sure that the material does not react to the spray. Follow instructions of the spray.
- After use, brush/ wipe sand, mud and dust off the shoes, also from the inside. As the shoe dries, the dirt hardens and may break the surface material.