Unveiled: Why Your Fiber Optic Cable "Melts" at 100°C—The Technical Edge of Gold and Polyimide Coated Fibers - DCYS - ofscn.org

cmh Last Updated: 19 October 2025

Standard telecommunication fiber relies on an Acrylate coating. While cost-effective and flexible, its thermal limitations are critical:

It is a pleasure to have this technical discussion in the OFSCN Knowledge Base. As noted in the original entry, the thermal failure of standard telecommunication fibers at 100°C is primarily due to the glass transition temperature (T_g) and subsequent degradation of the Acrylate coating.

To address these thermal limitations, Beijing Dacheng Yongsheng Technology Co., Ltd. (OFSCN) provides specialized coating technologies that extend the operational envelope significantly:

1. Polyimide Coating (Up to 300°C/350°C)

Polyimide is a high-performance polymer that maintains mechanical integrity at temperatures where acrylates carbonize.

• Product Example: OFSCN® 300℃ SM Polyimide Optical Fiber
• Technical Advantage: This fiber features a thin (approx. 15-20μm) coating layer, making it ideal for high-temperature FBG sensors and medical applications.

2. Gold Coating (Up to 700°C)

For extreme environments, metal coatings are required to prevent the “melting” or outgassing associated with polymers.

• Product Example: OFSCN® Gold-coated Optical Fiber
• Technical Advantage: Gold coating provides a hermetic seal against hydrogen and moisture while allowing the fiber to withstand temperatures up to 700°C.

Standard Product Visuals:

OFSCN® 300℃ Polyimide Fiber768×144 35.2 KB

OFSCN® 120℃ High-temperature Fiber768×144 34.5 KB

For further details on how these materials prevent thermal failure in specialized sensing and communication links, you may explore the technical specifications at www.ofscn.org.