Because dual-core yarns eliminate the trade-off between stretch and durability, they are increasingly adopted across multiple industries, informs Dr N Gokarneshan.
Elastic core-spun yarns blending spandex and PET/PTT bi-component filaments as the core combine superior stretch and recovery with excellent dimensional stability. This dual-core structure significantly reduces yarn stress decay, improves evenness, and lowers hairiness compared to yarns utilizing spandex alone.
These composite yarns exhibit several notable properties
Mechanical and elastic behaviour
- Stretch and recovery: The PET/PTT component provides structural support and recovery to the highly elastic spandex core, balancing easy stretch with high shape retention.
- Stress decay: These dual-core yarns demonstrate considerably lower stress decay (tension loss over time) than spandex-only yarns, allowing the fabric to maintain its fit after repeated use.
- Elongation tuning: The overall elongation and stress decay of the yarn can be carefully controlled by adjusting the draw ratio of the spandex during the spinning process.
Yarn quality and evenness
- Enhanced uniformity: Yarns mixed with spandex and PET/PTT feature high evenness with minimal thick/thin places and neps.
- Reduced hairiness: The composite core acts as a stabilizer, resulting in lower hairiness levels and a smoother, more durable surface in the final woven or knitted fabric.
Comfort and performance
- Dimensional stability: The addition of the PET/PTT bi-component filament prevents the “growth” or permanent stretching out of garments over time.
- Moisture management: The distinct filament properties (often seen with commercial fibers like Lycra T400) excel in moisture-wicking, keeping fabrics dry and comfortable in hot weather.
- Tensile strength: Compared to single-core yarns, dual-core yarns containing PTT exhibit higher tenacity and structural cohesion between the core and the sheath (such as cotton).
Mechanics and commercial applications of dual-core spun yarns
Dual-core spun yarns are advanced hybrid textiles featuring a two-component filament center (typically a high-stretch elastomer and a resilient synthetic) wrapped in a staple-fiber sheath. This unique structure marries the comfortable hand-feel of natural fibers with superior elasticity, shape recovery, and mechanical durability.
The primary advantage of a dual-core yarn is that it circumvents the limitations of traditional single-core yarns (which often suffer from “bagging” or permanent deformation).
- Core component 1 (elastane/spandex): Provides high extensibility, allowing the yarn and subsequent fabric to stretch comfortably during routine human movements.
- Core component 2 (polyester, T400, or PBT): Acts as a structural backbone. It provides high tensile strength, abrasion resistance, and excellent elastic recovery. It prevents the elastane core from being over-stretched, minimizing plastic deformation.
- Sheath component (cotton, lyocell, wool): Surrounds the core to provide a soft hand-feel, moisture wicking, and breathability. This outer covering also conceals the synthetic cores, allowing the yarn to be dyed like a traditional natural fiber.
- Spinning techniques: These yarns are predominantly engineered using modified ring spinning or vortex spinning. Specialized equipment like Siro-spinning attachments or custom grooved rollers ensures the dual-core is perfectly centered within the staple sheath.
Commercial applications
Because dual-core yarns eliminate the trade-off between stretch and durability, they are increasingly adopted across multiple industries:
- Premium and stretch denim: Dual-core yarns are the industry standard for high-performance jeans. They allow for tight, figure-flattering fits that retain their shape over time, preventing knee-bagging and stretching out after washing.
- Activewear and athleisure: Used in yoga pants, compression wear, and swimsuits, the yarn offers multi-directional stretch and moisture-wicking properties that dry quickly and hold up to high-stress athletic movements.
- Medical and compression textiles: Applied in medical support garments, surgical drapes, and compression stockings. The dual-core structure ensures consistent, long-lasting pressure without restricting movement or breaking down due to repeated dynamic loads.
- Technical and industrial uses: The high tenacity and abrasion resistance make dual-core structures highly sought after in workwear, protective clothing, and specialized upholstery fabrics.
About the author
Dr N Gokarneshan is a Formerly Professor and Head-Department of Textile Chemistry from SSM College of Engineering, Komarapalayam, Tamil Nadu.