Men’s Hiking Boots - NH100 Mid
Store Availability
Store Availability
BENEFITS
Lightweight
Each boot weighs 371 g in size 43 (UK size 9).Traction
The outer sole design and material ensure good grip.Grip
A patented Outdoor Contact thermoplastic sole ensures 3* grip.Cushioning
A heel insert and insole in 5 mm EVA foam provide good cushioning.Fit
Flexible high top and accurate lacing with 10 holes and 2 hooks.TECHNICAL INFORMATIONS
Strength & durability
Comfort
We have also made the insole removable for greater hygiene (washing possible).
Resistant soles for walking trails
When used on roads, this can lead to the premature wear of your boots and cause discomfort. They are not suitable for high mountain walking.
What socks should you wear with the Quechua NH100 MID boots?
composition
composition
Tips for storage and maintenance
Storage tips
Restrictions on use
TESTS AND WARRANTY
Test product
Warranty
Agree by
Ecodesign approach
With ecodesign, we reduce the environmental impact of our products.
Analysing the product's environmental footprint enabled us to identify the most impactful stages of its life cycle. Thanks to this approach, our design teams were able to develop this product while significantly reducing its environmental impact.
Ecodesign actions on this product
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Environmental Impact
Designed to reduce environmental impact
Product made with a CO2eq reduction of 10% compared to the previous or similar product
Our design teams are working to develop processes that will reduce the impact of a product, while preserving its technical characteristics. This reduction relates to the following indicators: climate change, air pollution, water pollution and resource depletion.
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Material
Recycled polyester
Product made from 16% recycled polyester
Using recycled polyester rather than conventional polyester reduces the CO2 emissions linked to the material by at least 16%.
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Material
Recycled thermoplastic
Product made from 13% recycled thermoplastic
Using recycled thermoplastic rather than conventional thermoplastic reduces the CO2 emissions linked to the material by at least 6%.