Y2K Denim Mix Pant
$ 180.00
Available color(s)
Colormedium agedSizing
Model is 5'8'' and is wearing a size 27 (Waist 26''. Hips 31'').
This product is currently out of stock.
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Features
These Y2K Denim Mix Pants combine two shades of chambray. Contrast colored patches are applied at the inner legs and hem, as well as one of the back pockets and waist. These Mix pants are designed in a straight fit, offering zippers at the back legs to create a flared look when preferred. This style is from our limited edition Y2K collection which features styles from the 00's, taken straight from our archive.
Regular Fit
Mid waist
Straight from top to bottom
Inset pockets, coin pocket, back pockets- one offers a contrast in color
Patches at the inner legs and around the hem
Zippers, adjustable tab at the back leg
Button fly
Material
Lightweight Indigo Imperial Chambray
This lighter weight indigo chambray is created out of a blend of fine cotton and linen. Thanks to the uneven structure of the linen fibers, this fabric features an irregular surface. The ecru weft gives it a vintage look.
- Weight 5.1 oz Chambray
- 86% Cotton, 14% Linen
- By buying cotton products from G-Star Raw, you're supporting more sustainable cotton farming through the Better Cotton Initiative. Better Cotton is sourced via a system of Mass Balance. Find out more about our sustainable materials"about our sustainable materials.”
- Linen is renewable and biodegradable natural fiber that normally does not require use of pesticides. Furthermore it uses less water and is stronger than conventional cotton.
Medium Aged
Medium shade of indigo denim finished with soft fades.
Washing Instructions
Do not bleachDo not tumble dryLow temperature iron 230°FDo not dry clean65-85°f normal processLine drying in the shadeWash inside out, Wash separately or with similar colours, Do not iron print, trims and accessories
Art nr: d23304-d186-071
Sustainability & Traceability
Preferred Materials
- 14% Linen made from fibers of the flax plant. Producing linen requires less energy and water compared to conventional fibers.