Performance fabrics engineered to go higher, faster, farther.
X-Pac® hyperTECTM is a family of advanced engineered fabrics, defined not by a single fiber, but by the performance abilities it unlocks.
WHY hyperTEC?
All the performance you’ll ever need
All X-Pac® hyperTECTM fabrics are built using high-modulus fibers and technical constructions uncommon to traditional woven goods, and are designed to deliver a hyper-level performance advantage. Whether that’s exceptional strength-to-weight, structural integrity, or next-generation material innovation. X-Pac® hyperTECTM fabrics allow people to unlock their potential to explore new places.
WHAT SETS X-Pac® hyperTECTM APART
X-Pac® hyperTECTM fabrics are designed for control and performance at the limit:
- High-Modulus Fiber Architecture:
- High modulus fibers offer advanced reinforcement for performance materials. X-Pac® hyperTECTM UX fabrics utilize 100% Ultra-PE woven face fabric.
- Strength Without Excess Weight:
- High-modulus fibers deliver maximum strength with minimal material.
- Reduced stretch under load for exceptional performance, and reliability.
- Elevated Durability:
- Strategic reinforcement and advanced construction create exceptionally stable fabrics at hyper-light weights.
- Trusted Lamination:
- 40 plus years of sailcloth lamination techniques continuously refined for X-Pac® fabrics.
- Trusted performance with repeatable, reliable, and high-precision results.
X-Pac® hyperTECTM SERIES FABRICS
UX10
At 85g/m², UX10 delivers a balance of durability and weight, offering versatile performance for packs across a broad range of applications.
UX10 sT
At 116g/m², UX10 sT is the standard for lightweight performance, combining optimized structure, durability, and weight efficiency into a single construction built to handle the widest range of demanding applications.
UX20 sT
At 161g/m², UX20 sT engineered for maximum strength and load-bearing performance, this hyper-light laminate excels in high-stress applications where structural integrity is critical, without prioritizing long-term abrasion durability.