International Fiber and Polymer Research Symposium

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Home / 14th International Fiber and Polymer Research Symposium

Design of flameproof and waterproof natural textile fabrics

Authors :

Turdimuhammad Abdullah¹ Levent Babayiğit² Aleyna Turanlı³ Recep Furkan Turan⁴ Cemil Dizman⁵

1- İzel Kimya A.Ş. 2- İzel Kimya A.Ş. 3- İzel Kimya A.Ş. 4- İzel Kimya A.Ş. 5- İzel Kimya A.Ş.

Keywords :

Natural-fabrics،Coating،Flame-retardancy،Water-repellence،Bio-based،DOPO،Cardanol

Abstract :

Natural fabric, which is globally renowned as the most commonly used natural fiber, has become an indispensable material within the textile industry. However, the hydrophilic nature and inherent flammability of this material pose limitations on its applications in various sectors, including homes, automotive vehicles, offices, and protective clothing. In these contexts, flame-retardant and hydrophobic properties are of crucial importance. To address this issue, we have applied UV-curable coatings to cotton fabric by employing two distinct acrylic polymer synthesis strategies. In the first approach, a methacrylated phenolic lipid was combined with n-alkyl methacrylate and copolymerized under UV exposure, resulting in a hydrophobic and flame-retardant surface. In the second approach, 3-Aminopropyltriethoxysilane is coated on the fabric, and then 9,10-dihydro-9-oxa-10-phosphaphenanthrene-10-oxide is applied above the 3-Aminopropyltriethoxysilane surface prior to UV curing. A comprehensive study was conducted to evaluate the wetting behavior and flame retardancy of the fabric both before and after coating. This was done by employing water contact angle and Limiting Oxygen Index Testing. The findings of this study demonstrate that the hydrophobicity and flame retardancy of the fabric can be substantially enhanced through UV coating. Furthermore, the initial ratio between the applied monomers can be adjusted to fine-tune these properties. It is noteworthy that all the chemicals utilized in these investigations are derived from renewable, bioresources, thereby ensuring sustainability and biocompatibility. This aspect holds significant importance for the textile industry, aligning with the growing demand for environmentally friendly and socially responsible manufacturing practices.