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Practical Guide: Stripping, Splicing, and Operation Techniques for Polyimide Optical Fiber
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Downhole Powerhouse: How OFSCN® Carbon-Sealed PI Fiber Resists High Pressure, High Temperature, and Hydrogen Darkening
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Pushing the Limits: Polyimide vs Acrylate: Why Polyimide is Essential at 300℃
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Breaking the Limits: Long-Term Reliability Analysis and Data Report of OFSCN® 350°C Polyimide Fiber
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OFSCN® 120°C SM High-Temperature Single-Mode Fiber: Leading the New Standard for Medium- and High-Temperature Sensing and Communications
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Overcoming thermal barriers, precise transmission: OFSCN® 120°C Single-mode high-temperature resistant optical fiber—a powerful tool for long-distance sensing and communication
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Breaking the high-temperature limit: OFSCN® 120°C multimode heat-resistant optical fiber - the first choice for industrial sensing and communications
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The cornerstone of global communications: OFSCN® G.652.D fiber – the reliable choice for long-distance, high-capacity networks
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Breaking Installation Limits: OFSCN® G.657.A Bend-Insensitive Fiber – Stability and Efficiency for Your Network
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Light in the Furnace: OFSCN® 700°C Specialty Fiber Optic Patch Cord — Optical Attenuation and Gold Coating Durability
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