185 cm x 65 cm x 5 mm Yoga Mat Grip - Blue
Store Availability
Store Availability
BENEFITS
Easy transport
A textile layer in the centre makes the mat much lighter.Grip
The textured rubber surface offers excellent grip.Stability
Its density and 5mm thickness ensure good stability during poses.TECHNICAL INFORMATIONS
Why did we create this product?
This product was designed to offer grip and comfort for all your yoga sessions. It's also a product that withstands regular use during yoga sessions. This mat is 185 cm long, 65 cm wide and 5 mm thick. It weighs 2.7 kg.
Caring for your mat
An item from the Kimjaly Premium collection
The Premium collection was born of the desire to offer more specialist products targeted at demanding users who want that sense of belonging to a yoga community.
The Kimjaly Premium collection: approved by yoga teachers
composition
composition
Tips for storage and maintenance
Storage tips
TESTS AND WARRANTY
Warranty
Videos
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 54% 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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Plastic
Rubber recycled
Product made from 10% recycled rubber
Using recycled rubber rather than conventional rubber reduces the CO2 emissions linked to the material by at least 8%.
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Textile
Recycled polyester
Product made from 100% recycled polyester
Using recycled polyester rather than conventional polyester reduces the CO2 emissions linked to the material by at least 16%.