FABRIC TRENDS
Curated fabric trends, color forecasts, and design cues to keep your collections ahead.
How Lyocell Fiber Is Made: From Wood Pulp to High-Performance Fabric
A professional guide to lyocell fiber manufacturing, performance differences, and textile applications.
TENCEL™ x Merino Wool vs Cotton–Wool vs Viscose–Wool: Choosing the Right Blend for Next-to-Skin
A spec-first comparison of wool blends for next-to-skin: performance trade-offs, application mapping, and what to request for bulk consistency.
Shrinkage & Growth Control in Lyocell–Wool Blends: What Causes It + How to Spec It
A sourcing-focused guide to dimensional stability in lyocell–wool knits: causes, comparisons, test methods, and spec language for bulk.
The Science Behind Cooling Technology: Precise Control of Perceived Temperature from Fiber to Skin
Cooling is a system for controlling heat and humidity. Discover how to specify targets for fiber, structure, and finishing to ensure consistent bulk performance.
TENCEL™ × Merino Wool Blend Fabric: Why It Feels Cooler Than You’d Expect
Explains why TENCEL™ x merino wool blends can feel cooler, compares alternatives, and shows how to choose knit structure and GSM for SS programs.
La science de la douceur et de la résistance : au cœur de la collection maille Sanrenity de Regentech
Le tissu Sanrenity allie douceur, durabilité et performance — redéfinissant le confort pour la mode moderne. Découvrez le luxe fonctionnel de Regen-tech Fashion.
Linen’s Cooling Effect: The Science Behind Why Linen Feels Cooler?
Linen feels cooler due to its unique fiber structure, which facilitates moisture wicking and thermal conductivity, allowing for improved airflow, rapid evaporation, and reduced heat retention.
Why Designers Love Linen Blends: Cotton-Linen / TENCEL™-Linen / Wool-Linen
Designers prefer linen blends for their enhanced comfort and performance. Cotton, TENCEL™, and wool optimize softness, drape, elasticity, and versatility.
