Construction and Durability

Mine optical cables are designed to endure high tensile stress and are often armored. The primary materials include steel and Kevlar, offering resistance to mechanical damage.

Mining optical cables, however, focus on flexibility and lightweight construction, typically using materials like polyethylene for external sheathing to ensure ease of installation in complex terrain.

Environmental Suitability

Mine cables are optimized for underground conditions with high moisture and potential chemical exposure, including polyurethane jackets for additional protection.

Mining cables suit surface environments requiring UV resistance and varying temperature tolerance.

Product Offerings

• Armored Tactical Fiber Cables: Featuring high tensile steel and water-blocking capabilities.
• Lightweight Mining Cables: Designed with polyethylene for UV and temperature resistance.

Technological Innovations

Fcjoptic invests in enhancing signal transmission quality and resilience, employing advanced techniques for low-loss performance in signal integrity and long-distance communication.

Mechanical Properties

Mine Optical Cable: Tensile strength of 2000 N/mm²; suitable for depths up to 20,000 meters.

Mining Optical Cable: Tensile strength of 1500 N/mm²; designed for surface use over 10km lengths without signal loss.

Environmental Resistance

Temperature tolerance for mine cables ranges from -40°C to 85°C, whereas mining cables withstand fluctuations between -20°C and 60°C due to surface exposure factors.

Data Transmission Capabilities

Mine cables facilitate data rates up to 10 Gbps over 10 km without repeaters, while mining cables offer 8 Gbps over similar distances due to inherent material limitations.