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Knit Technical Fabrics & Performance Textiles

Updated: Oct 5

What Are Circular Knitted Performance Textiles?

Circular knitted technical textiles are fabrics produced using circular knitting machines that are designed for technical or functional purposes. Unlike fashion fabrics, which are primarily concerned with appearance, technical textiles are engineered to meet stringent requirements for strength, elasticity, moisture control, and other performance characteristics.

Circular knitting uses a set of needles arranged in a circular formation to create fabric in a continuous, seamless loop. This method of knitting produces textiles that are often stretchable and highly adaptable to a wide range of shapes and sizes. The circular knitting process is well-suited for technical textiles because it allows for the production of seamless, flexible fabrics that can be tailored to meet specific functional needs.

Circular knit technical textile
Circular knit technical textile

Key Properties of Circular Knitted Technical Textiles

Circular knitted technical textiles possess several unique properties that make them suitable for high-performance applications:


1. Elasticity and Flexibility

One of the most notable characteristics of circular knitted textiles is their inherent elasticity. This elasticity is crucial for applications where stretch and recovery are needed, such as in sportswear, medical compression garments, or industrial components like seals and gaskets.


2. Seamless Construction

Because the fabric is produced in a continuous loop, circular knitted textiles are often seamless. Seamless construction not only reduces the risk of weak points in the fabric but also enhances comfort in applications like wearable technology and medical garments, where seams can cause irritation or impede function.


3. Breathability

Many circular knitted textiles, especially those made from materials like cotton, polyester, or synthetic blends, are highly breathable. This breathability is important in applications where moisture management is critical, such as athletic wear, medical bandages, or protective equipment.


4. Durability and Strength

While circular knitted fabrics are known for their stretch and flexibility, they can also be engineered for enhanced durability. Technical textiles often need to withstand harsh environments, repeated use, or extreme conditions, making durability a critical factor. Materials like aramid fibers (e.g., Kevlar) can be used to create highly durable knitted textiles.


5. Adaptability to Complex Shapes

The circular knitting process allows for the creation of fabrics that can easily conform to irregular or complex shapes. This is essential in technical applications where textiles must fit over contoured surfaces or provide uniform coverage, such as in airbags, geotextiles, and protective wear.



6. Moisture-Wicking and Hydrophobic Qualities

Circular knitted fabrics can be designed to wick moisture away from the skin, keeping the wearer dry in humid or physically demanding conditions. This is particularly important for activewear, medical garments, and industrial fabrics used in moisture-heavy environments.

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