Terylene Fabric: Ultimate Guide to Its Powerful Properties, Versatile Uses, and Sustainable Production Process [Updated 2024 ]

In the dynamic world of apparel manufacturing, staying ahead involves knowing your fabrics inside out. One such versatile fabric that has left an indelible mark in the industry is Terylene.

Terylene is a type of synthetic polyester fiber known for its durability, wrinkle resistance, and ability to hold shape. Developed in the 1940s by British chemists John Rex Whinfield and James Tennant Dickson at Imperial Chemical Industries. The name “Terylene” was originally created by Imperial Chemical Industries (ICI), the company that first produced it commercially.
Terylene quickly became a popular material in the textile industry. This guide explores the composition, properties, uses, and comparisons of Terylene fabric, providing all the information you need to understand this versatile material.

What is Terylene Material?

Terylene is a synthetic fabric made from polyethylene terephthalate (PET), a type of polyester. It is created through the polymerization of ethylene glycol and terephthalic acid, which are then extruded and spun into fibers. The resulting material is strong, durable, and resistant to shrinking and stretching, making it ideal for various textile applications.

Properties of Terylene Fabric

Terylene fabric, also known as polyester, boasts a range of properties that make it highly desirable in the apparel manufacturing industry:

  1. Durability: Durability is a hallmark of Terylene, as it exhibits exceptional resistance to abrasion, tearing, and stretching. This durability ensures that garments made from Terylene maintain their shape and integrity even after repeated wear and washing.
  2. Wrinkle Resistance: One of Terylene’s key attributes is its ability to resist wrinkles. This property makes it a preferred choice for garments that require minimal ironing or for travelers who need clothing that stays neat and presentable.
  3. Quick Drying: Terylene fabric exhibits quick drying properties, outperforming natural fibers such as cotton in this regard. This quick-drying characteristic is advantageous in manufacturing processes where efficiency and speed are crucial factors.
  4. Ease of Care: Garments made from Terylene are easy to care for. They can be machine washed and dried without losing their shape or color, making them convenient for everyday wear.
  5. Color Retention: Terylene fabric has excellent color retention properties. It holds dyes well during the dyeing process, resulting in vibrant and long-lasting colors in finished garments.
  6. Moisture Wicking: While traditionally not as moisture-wicking as natural fibers, advancements in textile technology have allowed for the development of Terylene fabrics with improved moisture management properties, enhancing comfort in active wear.
  7. Shape Retention: The fabric holds its shape well, even after repeated washing and wearing

Uses of Terylene Fabric

The versatility of Terylene fabric allows it to be utilized across diverse sectors within the textile and apparel industry:

  1. Apparel: Terylene is extensively used in apparel manufacturing. It is commonly found in clothing items such as shirts, blouses, dresses, skirts, trousers, and outerwear. Its durability, wrinkle resistance, and ease of care make it ideal for both casual and formal wear.
  2. Home Textiles: Terylene is a popular choice for home furnishings and interior textiles. It is used in curtains, draperies, upholstery fabrics, bed linens, and decorative pillows due to its durability, colorfastness, and resistance to fading.
  3. Technical Textiles: Terylene’s strength and resistance to environmental factors make it suitable for technical applications. Terylene is employed in manufacturing industrial fabrics such as filter fabrics, conveyor belts, ropes, and automotive interiors.
  4. Sportswear and Outdoor Gear: Terylene’s quick-drying properties and durability make it a favored material for sportswear, activewear, and outdoor gear. It is used in performance clothing such as running shirts, hiking pants, and waterproof jackets.
  5. Accessories: Terylene fabric is also used in accessories such as bags, backpacks, hats, and footwear. Its strength and versatility make it a reliable choice for creating accessories that endure daily wear and tear.
  6. Medical and Hygiene Products: In the medical field, Terylene is used in the production of surgical gowns, masks, and other disposable medical textiles due to its strength, barrier properties, and ease of sterilization.
  7. Geotextiles: Terylene is increasingly used in geotextile applications such as erosion control, drainage systems, and reinforcement materials for civil engineering projects due to its robustness and resistance to environmental degradation.

Terylene Fabric vs. Cotton

  • Comfort: Cotton is a natural fiber known for its softness and breathability, making it comfortable for everyday wear. Terylene, while durable, is less breathable and may feel less comfortable in hot weather.
  • Durability: Terylene outperforms cotton in terms of durability and resistance to shrinking, stretching, and wrinkling.
  • Care: Terylene is easier to care for, requiring less ironing and maintenance compared to cotton, which can wrinkle and shrink more easily.
  • Environmental Impact: Cotton is biodegradable, while Terylene is not, raising environmental concerns regarding its disposal.

Terylene Fabric vs. Polyester

  • Composition: Terylene is a type of polyester, so they share many similarities. However, Terylene was one of the earliest forms of polyester and is known for its specific properties.
  • Applications: Terylene is often used in applications requiring higher durability, such as industrial textiles and outdoor gear, while other polyesters might be more commonly used in everyday clothing.
  • Texture: Depending on the manufacturing process, Terylene can feel slightly different from other polyesters, often with a smoother finish.
  • Price: Terylene may be slightly more expensive than standard polyester due to its specific properties and manufacturing process.

Terylene Fabric Price

The price of Terylene fabric can vary depending on the quality, thickness, and intended use. On average, Terylene fabric costs between $5 to $15 per yard. Industrial-grade Terylene or specially treated variants may be priced higher. It’s advisable to compare prices from different suppliers to find the best deal for your needs.

Sustainability Aspects

While Terylene offers numerous benefits, its environmental impact has been a subject of scrutiny. Here’s a look at its sustainability aspects:

  • Energy Intensive Production: The production of Terylene involves significant energy consumption and emissions, primarily due to its petroleum-based origin.
  • Recycling: However, Terylene is recyclable, and recycled polyester (rPET) is gaining popularity as a sustainable alternative. rPET reduces the reliance on virgin polyester and helps mitigate environmental impact.

Production Process of Terylene Fabric

Manufacturing Process

The production of Terylene fabric involves several key steps, primarily focused on the polymerization of specific chemical compounds:

  1. Polymerization:
    • Raw Materials: The process begins with the basic raw materials—ethylene glycol and terephthalic acid.
    • Chemical Reaction: These materials undergo a polymerization process, where they chemically react to form polyethylene terephthalate (PET). This is the polymer that makes up Terylene.
    • Condensation Polymerization: The specific process used is called condensation polymerization, where the reaction results in the release of water molecules as a byproduct. This reaction is carefully controlled to produce long chains of PET, giving the polymer its strength and durability.
  2. Extrusion:
    • Melt Spinning: The PET polymer is then melted and forced through a spinneret, a device with tiny holes, to form long, continuous filaments. This process is known as melt spinning.
    • Cooling and Solidification: As the filaments emerge from the spinneret, they are rapidly cooled, solidifying into thin, strong fibers.
  3. Drawing and Spinning:
    • Drawing: The fibers are then drawn or stretched to align the polymer molecules, increasing the tensile strength and elasticity of the fibers.
    • Spinning: The drawn fibers are spun into yarns, which can be further woven or knitted into fabric. The spinning process may involve twisting the fibers to enhance their strength and elasticity.
  4. Finishing:
    • Dyeing and Treatment: The Terylene yarns or fabrics can be dyed in a wide range of colors and treated with various finishes to enhance their properties, such as water repellency or flame resistance.

Environmental Impact

The production and disposal of Terylene fabric have significant environmental considerations:

  1. Energy-Intensive Production:
    • The production of Terylene involves energy-intensive processes, particularly during polymerization and extrusion. This contributes to greenhouse gas emissions and a high carbon footprint.
  2. Non-Biodegradable:
    • Terylene, like other polyesters, is not biodegradable. This means that Terylene fabric can persist in the environment for hundreds of years if not properly recycled, contributing to pollution and landfill waste.
  3. Recycling Efforts:
    • Efforts are being made to recycle Terylene and other polyester products. Recycled PET (rPET) is increasingly used in the production of new Terylene fabrics, reducing the environmental impact and demand for virgin resources.
  4. Water and Chemical Use:
    • The dyeing and finishing processes can involve the use of large amounts of water and potentially harmful chemicals, contributing to water pollution if not managed properly. Sustainable manufacturing practices, such as using closed-loop systems and eco-friendly dyes, are being adopted to mitigate these effects.

Innovations in Terylene Fabric

Terylene, also known as polyester, has undergone significant advancements and innovations over the years, enhancing its performance, sustainability, and versatility in various applications within the textile industry:

  1. Performance Enhancements: Recent innovations have focused on improving the performance characteristics of Terylene fabric to meet the evolving demands of consumers and manufacturers:
    • Moisture Management: Traditional polyester fabrics were known for their limited breathability and moisture-wicking properties. Innovations in Terylene fabrics now include engineered fibers and finishes that enhance moisture transport away from the skin, improving comfort in activewear and performance garments.
    • Stretch and Recovery: New technologies have enabled the development of stretchable Terylene fabrics that offer enhanced flexibility and shape retention. These fabrics are used in athletic wear and form-fitting garments where freedom of movement is essential.
    • UV Protection: Some Terylene fabrics are now treated or inherently designed to provide UV protection, making them suitable for outdoor apparel and sportswear, offering added sun protection to the wearer.
    • Antimicrobial Properties: Innovations in Terylene include incorporating antimicrobial finishes or treatments that inhibit the growth of odor-causing bacteria, enhancing the freshness and hygiene of garments, particularly in active and performance wear.
    • Thermal Regulation: Advanced Terylene fabrics can now offer improved thermal regulation properties, providing warmth in cold conditions and cooling effects in hot weather, contributing to overall wearer comfort.
  2. Sustainable Innovations: With growing concerns over environmental impact, innovations in Terylene fabric have also focused on sustainability:
    • Recycled Polyester (rPET): One of the most significant advancements is the development of recycled polyester fibers and fabrics made from post-consumer plastic bottles and other recycled sources. rPET reduces the reliance on virgin polyester and helps divert plastic waste from landfills.
    • Bio-based Polyester: Researchers are exploring bio-based alternatives to traditional petroleum-derived polyester. Bio-based polyester is derived from renewable biomass sources such as sugarcane, corn, or plant-based oils, reducing the carbon footprint associated with polyester production.
    • Waterless Dyeing Techniques: Innovations in dyeing processes for Terylene fabrics include waterless or reduced water dyeing methods, such as digital printing and air dyeing technologies. These techniques minimize water consumption and chemical usage, improving the sustainability of the dyeing process.
  3. Smart Textiles: Terylene fabrics are increasingly being integrated with smart textile technologies, enabling innovative functionalities:
    • Conductive Yarns: Terylene fabrics can incorporate conductive yarns or fibers for applications in wearable technology and smart clothing. These fabrics can monitor physiological data, transmit signals, or integrate with electronic devices seamlessly.
    • Temperature Sensing Fabrics: Some Terylene textiles are designed with embedded sensors that can detect changes in temperature or moisture levels, providing real-time feedback to the wearer or external systems.
    • Lightweight and Packable: Advances in yarn spinning and fabric construction techniques have led to the development of lightweight and packable Terylene fabrics that offer high performance without bulk, ideal for travel and outdoor activities.
  4. Fashion and Design Innovations: In the realm of fashion and design, innovations in Terylene fabrics have expanded creative possibilities:
    • Textured Finishes: Terylene fabrics can be engineered with textured finishes such as crepe, satin, or jacquard weaves, enhancing aesthetic appeal and tactile qualities.
    • Printability: Advanced printing technologies allow for intricate and vibrant designs on Terylene fabrics, catering to diverse fashion trends and customization preferences.
    • Drape and Comfort: Innovations in fabric construction and finishing techniques improve the drape, softness, and overall comfort of Terylene garments, appealing to fashion-conscious consumers seeking both style and comfort.

Conclusion

In conclusion, Terylene fabric has revolutionized the apparel industry with its durability, versatility, and ease of care. While its environmental impact remains a concern, innovations in recycling and sustainable production practices are paving the way for a more eco-friendly future. As apparel manufacturers and students, understanding the characteristics and applications of Terylene fabric is crucial for making informed decisions in product development and sustainability efforts.

Frequently Asked Questions (FAQs) about Terylene Fabric

1. What is Terylene fabric made of?

Terylene is made from polyethylene terephthalate (PET), a type of polyester. It is produced through the polymerization of ethylene glycol and terephthalic acid, resulting in a durable and versatile synthetic fiber.

2. Is Terylene breathable?

Terylene is less breathable than natural fibers like cotton. While it does offer some breathability, it’s not as effective in hot weather or for activities requiring high levels of ventilation.

3. How does Terylene compare to cotton?

Terylene is more durable, wrinkle-resistant, and easier to care for than cotton. However, cotton is more breathable and generally considered more comfortable for everyday wear.

4. Can Terylene fabric be used in outdoor clothing?

Yes, Terylene is often used in outdoor clothing due to its quick-drying nature, resistance to mold and mildew, and durability.

5. How should I care for Terylene fabric?

Terylene fabric should be machine washed in cold or warm water with a mild detergent. It can be air-dried or tumble-dried on low heat, and if necessary, ironed on a low heat setting.

6. Is Terylene fabric environmentally friendly?

Terylene is not biodegradable and has a significant environmental impact during production and disposal. However, efforts are being made to recycle Terylene and develop more sustainable polyester alternatives.

7. What are the common uses of Terylene fabric?

Terylene is used in a variety of applications, including clothing (suits, dresses, sportswear), home textiles (curtains, bed linens), and industrial applications (ropes, conveyor belts).

8. Is Terylene safe for sensitive skin?

Terylene is generally safe for most people, but some individuals with sensitive skin may experience irritation, especially if the fabric traps sweat and moisture.

9. How does Terylene compare to other polyesters?

Terylene is one of the earliest forms of polyester and is known for its specific properties like durability and wrinkle resistance. Other polyesters may vary in texture and specific applications but generally share similar characteristics.

10. What is the price of Terylene fabric?

The price of Terylene fabric typically ranges from $5 to $15 per yard, depending on the quality and intended use. Specialty or industrial-grade Terylene may cost more.

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