227um Core /250um Fiber glass Bare Optical Fiber With Coating Protection
Fiberglass, or “glass fiber,” itself has a familiar base structure and a wide variety of uses.
Fiberglass really is made of glass similar to that in windows or kitchen drinking glasses. To manufacture fiberglass, glass is heated until molten,
then forced through superfine holes. This creates glass filaments that are extremely thin—so thin, in fact, that they're best measured in microns.
These flexible filament threads can be used in several applications:
They can be woven into larger swatches of material or left in a somewhat less structured form used for the more familiar puffy texture used for insulation or soundproofing. The final application is dependent on the length of the extruded strands (longer or shorter) and the quality of the fiberglass.
For some applications, it's important that the glass fibers have fewer impurities, however, this involves additional steps in the manufacturing process.
Specification :
Item | Wavelength Range |
Hydroxyl Content |
Core Diameter |
Cladding Diameter |
Coating Diameter |
Core / Cladding |
Coating | Proof Test | Stripping Tool |
HCW050UGA | 250 - 1200 nm | High-OH | 50 μm ± 2% | 125 ± 1 μm | 250 μm ± 4% | Pure Silica / Fluorine-Doped Silica |
Acrylate | ≥100 kpsi | T08S13 |
HCW050LGA | 400 - 2400 nm | Low-OH | |||||||
HCW105UCA | 250 - 1200 nm | High-OH | 105 μm ± 2% | 125 ± 1 μm | 250 μm ± 4% | T08S13 | |||
HCW105LCA | 400 - 2400 nm | Low-OH | |||||||
HCW200UEA | 250 - 1200 nm | High-OH | 200 μm ± 2% | 220 ± 2 μm | 320 μm ± 5% | T10S13 | |||
HCW200LEA | 400 - 2400 nm | Low-OH |
Solarization may occur at wavelengths below 300 nm.We also provide solarization multimode fiber.