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Wujiang Wanteng Baofu Textile Co., Ltd.
28S/2 Graphene core-spun yarn Wholesale
  • 28S/2 Graphene core-spun yarn
  • 28S/2 Graphene core-spun yarn
  • 28S/2 Graphene core-spun yarn
  • 28S/2 Graphene core-spun yarn
  • 28S/2 Graphene core-spun yarn
  • 28S/2 Graphene core-spun yarn

28S/2 Graphene core-spun yarn


The production process of Graphene 28S/2 Core Yarn generally adopts advanced textile technology and environmental protection process to ensure the quality and environmental protection of the product. Graphene is a material with electrical conductivity, thermal conductivity, antimicrobial and antistatic properties. Adopting graphene fibre as the internal fibre can give the yarn properties, such as antibacterial, antistatic and thermal conductivity, making the made textiles healthier, more comfortable and durable. The 28S/2 of the yarn indicates its specification, where 28S denotes the fineness of the yarn, and /2 indicates that the yarn is made by twisting two strands of yarn together. This specification of yarn is suitable for the production of all kinds of fabrics, such as T-shirts, shirts, trousers, etc., which can meet the needs of different kinds of textiles.

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  • Graphene 15 %, Acrylic 38%, Viscose 17%, PBT 30%

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  • SC-GRS-Certificate

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28S/2 Graphene core-spun yarn knowledge

What specific properties does graphene impart to the yarn?
Electrical Conductivity: Graphene is an excellent conductor of electricity. By incorporating graphene into the 28S/2 Graphene core-spun yarn, it can enhance the yarn's ability to conduct electricity. This property is beneficial for applications where electrical conductivity is required, such as in smart textiles or wearable technology.
Thermal Conductivity: Graphene also exhibits exceptional thermal conductivity. When integrated into the yarn, graphene can help improve the yarn's ability to transfer heat, making textiles made from this yarn more thermally efficient. This property can contribute to enhanced comfort in clothing items.
Antimicrobial: Graphene possesses antimicrobial properties, which can inhibit the growth of bacteria and fungi on textile surfaces. By incorporating graphene into the yarn, textiles made from this yarn can have built-in antimicrobial protection, reducing the risk of odor formation and promoting hygiene.
Antistatic: Graphene's antistatic properties make it effective at reducing static electricity buildup on textile surfaces. This property is particularly useful in clothing items, where static electricity can cause discomfort or attract dust and lint.
Strength and Durability: Although not a direct property of graphene, the integration of graphene into the yarn's core can enhance the overall strength and durability of the yarn. Graphene's exceptional mechanical properties, such as high tensile strength and flexibility, can contribute to making the yarn more resilient to wear and tear.

 

Will the graphene properties degrade over time or with washing?
Graphene itself is known for its remarkable stability and durability, even under harsh conditions. When graphene is integrated into materials like textiles, its properties generally remain stable over time, including through multiple wash cycles. However, there are a few factors to consider regarding the potential degradation of graphene properties:
Integration Method: The method used to integrate graphene into the yarn can influence its stability. If graphene is effectively bonded or encapsulated within the yarn's core during the manufacturing process, it is less likely to degrade over time or with washing.
Textile Treatment: The treatment of textiles made from graphene-enhanced yarn can affect the stability of graphene properties. Harsh chemicals or processes used during textile finishing could potentially degrade graphene. Therefore, it's essential to use gentle washing methods and mild detergents to preserve graphene properties.
Quality of Graphene: The quality of the graphene used in the 28S/2 Graphene core-spun yarn can impact its stability. High-quality graphene with fewer defects and impurities is more likely to maintain its properties over time.
Mechanical Wear: While graphene itself is highly durable, excessive mechanical wear and tear on the textile, such as rubbing or abrasion, could potentially degrade graphene properties over an extended period.