GStar Raw
G-STAR Outlet Lynn Super Skinny Jeans Black
G-STAR Outlet Lynn Super Skinny Jeans Black
G-STAR Outlet Lynn Super Skinny Jeans Black
G-STAR Outlet Lynn Super Skinny Jeans Black
G-STAR Outlet Lynn Super Skinny Jeans Black

Lynn Super Skinny Jeans

including VAT

Lynn Super Skinny Jeans

including VAT

Available color(s)

Colour Black

Select your size

waist
length

Product is available

G-STAR Outlet Lynn Super Skinny Jeans Black

Features

The Lynn D-Mid Super Skinny Jeans feature a classic 5-pocket construction with subtle detailing and cross-set belt loops.

Super Skinny Fit

  • Mid waist
  • Fitted waistband
  • Tight from top to bottom
  • Zip fly
G-STAR Outlet Lynn Super Skinny Jeans Black

Fabric

Yield Black Ultimate Stretch Denim

The Lynn D-Mid Super Skinny Jeans is cut from extra-stretchy denim with a versatile shade of black and great snap-back memory.

  • 11.8 oz stretch denim
  • Extra-soft to the touch
  • Excellent stretch and recovery
  • 60% Cotton, 17% Polyester (Recycled), 11% Elastomultiester (T400® EcoMade), 9% Viscose, 3% Elastane (Lycra®). The LYCRA® fibers we use are high performance stretch fibers which hold a Gold Level Material Health Certificate from the Cradle to Cradle Products Innovation Institute.
  • Recycled polyester is produced from post-consumer or post-industrial waste materials such as PET plastic bottles and apparel. Material that would otherwise have been sent to landfill or to incineration.
  • 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.

Rinsed

Lightly laundered to soften the fabric and give a more comfortable fit from day one.

Washing instructions

Do not bleach

Art. nr.: D06333-9142-082

Lynn

The Lynn is a modern and feminine take on the classic 5-pocket jean. Its precision fit takes inspiration from the G-Suit, an accurately fitting garment worn by astronauts to protect them against the effects of intense acceleration force.

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