Optical Properties and Applications of Polarized Yarns and Textiles Integrated with Polarizing Dyes

• Published in: Journal of Fiber Science and Technology Vol. 81; no. 3; pp. 42 - 50
• Main Authors: Oi, Ryu, Kawashima, Riho, Sakai, Izumi, Shiba, Sayaka, Yamada, Mone, Hiranuma, Yuu, Amako, Takamichi, Kobayashi, Seiichi
• Format: Journal Article
• Language: English
• Published: The Society of Fiber Science and Technology, Japan 10.03.2025; 一般社団法人 繊維学会
• Subjects: polarized textile; polarized yarn; polarizing dye
• ISSN: 2189-7654; 2189-7654
• DOI: 10.2115/fiberst.2025-006

This study investigates the integration of polarizing dyes, commonly used in LCDs and polarized sunglasses, into yarns and textiles to evaluate their optical properties and explore potential applications in clothing. The high-temperature-resistant polarizing dyes, stable above 300°C, facilitated the production of colored polyester yarns via melt spinning. Initially, monofilament yarns in five colors (Yellow, Red, Blue, Cyan, Black) were created and their polarizing properties were assessed. Polarizing microscopic observations showed distinct variations in light absorption and reflection, depending on the yarn’s alignment with the polarizer. Colors appeared darker when the yarn was perpendicular and lighter when parallel to the polarizer, confirming the alignment of the longitudinal direction of the yarn and polarizing dye with the light absorption axis. Using a UV-Vis spectrophotometer (Shimadzu UV-2450) with a commercial polarizing film (99% polarization degree), a practical method was established to evaluate the degree of polarization. The monofilament yarns were compatible with embroidery machines, allowing the creation of samples with unique optical effects. Hidden images were created by stitching directionally with polarizing films. Furthermore, multifilament yarns were developed, twisted, and woven into textiles using a commercial Jacquard loom. These textiles exhibited significant differences in light transmission and reflection when observed with a polarizing film. Even without the polarizing film, the textiles displayed unique visual effects based on their orientation and light angle. The findings suggest that polarized textiles have great potential for innovative applications in fashion and costume design.