Our Approach Is Built on Precision, Stability & Absolute Process Control.
Specialty Optical Fibers for Industrial Sensing Applications
Industrial sensing systems demand absolute reliability. Temperature drift, mechanical fatigue, chemical exposure, and vibration can compromise conventional optical fibers and introduce measurement errors. Our specialty optical fibers are engineered to deliver stable, repeatable performance in the most demanding industrial environments.
We manufacture metal-coated, spun, multi-core, and fully customized fibers designed for fiber-optic sensing technologies including distributed temperature sensing (DTS), distributed acoustic sensing (DAS), strain monitoring, pressure measurement, and vibration detection.
Our fibers are used in structural health monitoring, energy infrastructure, industrial automation, smart manufacturing, and safety-critical monitoring systems where continuous data accuracy is essential.
Every fiber is produced with strict dimensional control, stable optical properties, and full production traceability to ensure predictable performance across long-term deployments.
Industrial Sensing Manufacturing – Stability Without Signal Drift
Industrial sensing fibers must operate under constant thermal cycling, mechanical stress, chemical exposure, and vibration while maintaining optical integrity. Our manufacturing process combines advanced drawing control, precision coating technology, and inline inspection to guarantee:
- Stable signal transmission under thermal and mechanical stress
- High resistance to abrasion and environmental degradation
- Minimal signal noise and attenuation drift
- Long-term reliability in permanent installations
- Consistent fiber geometry for accurate sensor calibration
Our fibers enable industrial sensing systems to deliver reliable, actionable data for years without recalibration or signal degradation.
Sensor-Optimized
Fiber Engineering
Our fibers are designed using predictive modeling of thermal expansion, strain transfer efficiency, and coating adhesion to maximize sensing accuracy and signal stability.
Certified Industrial-Grade Production
All sensing fibers are manufactured under controlled industrial processes with documented materials, validation protocols, and optional qualification testing.
Typical Industrial Sensing Applications
Available Fiber Types
- Metal-coated fiber for high-temperature and harsh environments
- Spun fiber for strain-insensitive sensing
- Multi-core fiber for compact multi-parameter measurement
- Fully customized fiber geometries and coatings
Technical Performance Summary
| Parameter | Fiber Sepcification |
|---|---|
| Coating Type | Metal coatings (Gold, Aluminum, Nickel, Copper, industrial alloy blends) |
| Maximum Operating Temperature | Up to 450 °C continuous, higher for short-term exposure |
| Mechanical Durability | Designed for vibration, tension, and bending fatigue |
| Chemical Resistance | Resistant to oils, solvents, humidity, and industrial chemicals |
| Coating Thickness | 10 – 60 µm, customizable |
| Fiber Diameter Tolerance | ±0.3 µm standard, tighter on request |
| Tensile Strength | > 550 MPa after coating |
| Bend Radius | Down to 18× fiber diameter |
| Thermal Cycling Stability | Stable under repeated –40 °C to +450 °C cycles |
| Signal Stability | No measurable attenuation drift under load and vibration |
| Strain Transfer Efficiency | Optimized for accurate sensing response |
| Abrasion Resistance | Enhanced surface hardness for field deployment |
| Surface Cleanliness | Controlled for industrial sensor assembly |
| Production Traceability | Full batch, material, and process traceability |
| Custom Geometry Support | Single-core, spun, multi-core, reinforced structures |
| Compliance Options | ISO manufacturing, industrial qualification protocols available |
Q&A
Yes. Our fibers are designed for permanent installations with stable optical performance over long periods, even under vibration, temperature cycling, and mechanical stress.
Absolutely. We develop custom coatings, geometries, and optical structures optimized for specific sensing technologies and deployment environments.
Through strict manufacturing control, inline inspection, thermal and mechanical validation, and full process traceability to eliminate variability between production batches.
Spun fiber reduces polarization sensitivity and improves signal stability, making it ideal for precise strain and temperature measurement systems.
Metal coatings provide superior thermal stability, mechanical protection, and chemical resistance. They ensure accurate signal transmission in harsh industrial environments where polymer coatings fail.
