Corqued 16.5" Boardshort
Everything you need in a surf trunk, and more . . . The Corqued 4-Way stretch boardshort, with its alluring antique pattern, is built for the fullest range of performance and comfort. The material consists of a versatile recycled polyester, cotton and hemp fiber blend. Style features include a side pocket with integrated key rope. 16.5" outseam measurement.
69% Recycled Polyester 17% Cotton 7% Hemp 7% Spandex
Style # M1021COR
- 4-Way Stretch
- Embroidered Trims
- Triple Needle Stitching
- Soft Thread
- HIGH IQ Repel
- Tethered Waistband
- UPF 50
- Signature Calipher Fly
All Vissla boardshorts are constructed with 4-way stretch fabrics.
Repreve fiber contains recycled materials - including plastic bottles. When you see this icon, remember: It's what's in it... that makes it recycled. With Repreve, you can be sure you're creating a reprieve for the planet.
REPREVE is a registered trademark of Unifi, Inc.
All trims are embroidered to the fabric for a clean finish and to last longer.
Triple needle side seams and front, back rise.
Swim floss thread for comfort and prevents leg rash.
Thanks to a process called 'Cocotex', the overlooked 'waste' is turned into an activated carbon fabric. The properties of this fabric are everything you could ever wish for in a pair of trunks: they stretch, they breathe, they fight odor, and they last.
In the past, water-repellant fabrics were treated with chemicals known as PFCs and Fluorocarbons to help prevent surface saturation into the fabrics. The problem is that as these chemicals are released from the fabrics over time they have been shown to harm the living organisms they come into contact with, affecting reproduction and hormone systems. Vissla has chosen to move to 100% PFC and Fluorocarbon-free DWR water repellant coating for our boardshorts.
Tethered waistband for a comfortable tight fit and keeps it on your waist in bigger waves.
This garment is UPF 50.
New signature calipher fly construction developed to pull together tighter for those precarious surf conditions.