Patagonia Dual Aspect Hoody - Women's 5041-691


Show Description

A hybrid jacket that takes on more than you'd expect. By bonding soft shell fabric to fleece, this slim layer combines the warmth and breathability of fleece with the wind-resistance and water-shedding ability of a soft shell. The unique grid structure traps warm air and adds heat when used as a mid-layer. Features like handwarmer pockets, a chin guard, and a fitted hood make the Dual Aspect work well as a stand-alone jacket too.

  • Polartec Power Shield soft shell is made of recycled polyester and spandex with a DWR finish.
  • Polartec Grid knit fleece bonded inner is 70-denier polyester with a DWR finish.
  • Side panels, hood and sleeves are polyester and spandex for breathability in areas where you need less weather protection.
  • Full zip with fold over chin guard.
  • Form fitting hood slides under a helmet.
  • Zippered hand pockets ride above a hipbelt or harness
  • Zippered external chest pocket.

Tech specs

Show Tech specs
Ideal for Alpine climbing and mountaineering
  • Soft shell
  • Mid-layer
  • Polartec Power Dry
  • Polartec Power Shield
Construction Bonded
Fabric content
  • 96% recycled polyester
  • 4% spandex
Lining/backer Polyester

Waterproof garments use waterproof-breathable technologies and are fully seam-taped. Water-resistant garments use waterproof-breathable technologies but their seams are not taped. Water-resistant garments repel water and protect against wind but are not made of waterproof fabric.

  • 2 handwarmer
  • 1 external chest

A windproof garment does not allow any air to permeate the fabric. A garment with windproof panels has panels of fabric that are totally windproof, but the rest of the garment may not be windproof. A wind-resistant garment resists some wind, but not as much as a garment that is windproof.

Length Hip-length
Durable water repellency

Usually referred to as DWR. A treatment made to fabrics that causes water to bead and run off instead of soaking through.

Hood Fitted
Made in Colombia