Women's Fitness Cycling Shorts - Ultra Black
These slim-fit, supportive, comfortable cycling shorts are a simple, smart, timeless piece. The soft fabric is super comfortable whether you wear this product for a workout or everyday life.
ID 8511786
- 2-year warranty
- 365 days to return for members
stretchMove freely thanks to the elastane in the fabric.
softnessCotton fibre offers natural comfort and softness.
pocketsTip: slip a key in the front pocket.- Shorts designed for fitness that can do so much more.An early morning toning session, a meeting at work, some quality time with the family - if you could do all this in your stylish and comfortable shorts, wouldn't that be great? Well, it just so happens, that's our aim: take you from home to work and everything in between, without having to change clothes for every activity.
Features
Design benefits
Design details
Specifications
Details
| place of practice | indoor, outdoor |
| type of belt | flat belt |
| fit | slim |
| key pocket | |
| main material | mainly cotton |
| style | plain |
| number of pockets | pocket less |
| belt height | mid waistband |
| stitching type | with seam |
Composition
Main fabric: 92.0% Cotton, 8.0% Elastane |
Usage & care
Environmental impact
Carbon footprint
Kg CO2 eq.
4.31Contribution
| Raw material | 70% |
| Manufacturing | 2% |
| Packaging | 2% |
| Distribution | 2% |
| Use | 24% |
| End of life | 1% |
It is calculated by modelling the life cycle of the product following the recommendations of the PEF methodology (Product Environmental Footprint). This carbon footprint is an estimate. It may therefore be slightly overvalued or undervalued.Learn more
Ecodesign approach
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.More about our approach
Recycled cotton
Product made from 28% recycled cottonUsing recycled cotton rather than virgin cotton reduces the CO2 emissions linked to the material by at least 14%.
