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Supplier: Newport MKS
Description: The F-SM1500-9/125-P Polyimide Coated Single-Mode Fiber is an all-glass fiber with low attenuation and supports single-mode light propagation for a 1550 - 1650 nm operating wavelength range. This low attenuation, step-index fiber has a uniform core refractive index and a
- Fiber Mode: Single Mode
- Maximum Attenuation: 0.6000 dB/km
- Numerical Aperture: 0.1300 to 0.1500
- Wavelength: 1550 to 1650 nm
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Supplier: OFS
Description: The high-numerical aperture low-OH content of these fibers result in a large usage window. Low OH concentration is especially effective for using these fibers in near-IR spectroscopy applications. For laser delivery, HCS® fiber coating preserves cladding modes through
- Bending Radius: 30 to 49 mm
- Fiber Core Size: 320 µm
- Fiber Mode: Multimode
- Fiber Type: Bare Fiber
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Supplier: OFS
Description: The high-numerical aperture low-OH content of these fibers result in a large usage window. Low OH concentration is especially effective for using these fibers in near-IR spectroscopy applications. For laser delivery, HCS® fiber coating preserves cladding modes through
- Bending Radius: 30 to 49 mm
- Fiber Core Size: 330 µm
- Fiber Mode: Multimode
- Fiber Type: Bare Fiber
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Supplier: OFS
Description: fibers deployed linearly and the 0.16 fiber performs well in coiled sensors or inside sensors with small bend radii. OFS is vertically integrated and manufactures fiber preforms using the OFS patented MCVD process. GeoFibers are protected with the dual
- Bending Radius: 4 mm
- Fiber Core Size: 8.4 µm
- Fiber Mode: Single Mode
- Fiber Type: Bare Fiber, Other
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Supplier: OFS
Description: Low OH concentration optimizes these fibers for use in the near-IR wavelengths. Biocompatibility features make these fibers ideal for laser surgery and other medical applications. The all-silica base construction creates a high damage threshold and high-performance optical
- Bending Radius: 29 to 47 mm
- Fiber Core Size: 365 µm
- Fiber Mode: Multimode
- Fiber Type: Bare Fiber
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Supplier: Fiberguide Industries, Inc.
Description: Optical fibers are typically manufactured from a preform consisting of a silica core which may be doped silica or pure silica and a cladding classically of silica having a lower refractive index than the core. An additional layer or coating/buffer is added to prevent the ingress
- Angle: Flexible
- Bend Radius: 88 mm
- Core Material: Silica / Quartz
- Diameter: 0.4000 mm
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Supplier: Fiberguide Industries, Inc.
Description: Optical fibers are typically manufactured from a preform consisting of a silica core which may be doped silica or pure silica and a cladding classically of silica having a lower refractive index than the core. An additional layer or coating/buffer is added to prevent the ingress
- Angle: Flexible
- Bend Radius: 44 mm
- Core Material: Silica / Quartz
- Diameter: 0.2000 mm
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Supplier: Fiberguide Industries, Inc.
Description: While single mode silica/silica fibers are available from a number of suppliers with standard polymer coatings, Fiberguide is unique in offering these fibers with high performance buffers/coatings of aluminum, gold or polyimide. A single mode fiber has a
- Angle: Flexible
- Diameter: 0.0088 mm
- Light Guide Type: Fiber Optic
- Numerical Aperture: 0.1200
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PEEK reinforced optical fiber enables performance in harsh environments with our 100% PEEK secondary coating, which maintains strain transfer and (read more)
Browse Fibers and Filaments Datasheets for Zeus -
simultaneous transmission of different optical signals over a single fiber optic cable Photography and Imaging: Adjusting color balance, enhancing contrast, and reducing glare in lenses and camera systems Spectroscopy: Separating specific wavelengths for analysis and detection in scientific (read more)
Browse Optical Filters Datasheets for Suzhou Jiujon Optics Co., Ltd -
Microscopy: In the realm of microscopy, these lenses magnify and enhance resolution, revealing intricate details in microscopic objects for scientific exploration. Telecommunications: Vital for transmitting optical signals in fiber optic cables, spherical (read more)
Browse Optical Lenses Datasheets for Suzhou Jiujon Optics Co., Ltd -
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from an optical fiber, you may replace sin(Θ) by NA (fiber). Manufacturing Capabilities Material Aluminum (read more)
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Setup: One controller supports up to 4 measurement channels simultaneously, allowing for efficient multi-tasking. Durable Construction: The optical fiber is protected by a stainless steel tube and silica gel (read more)
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Master Bond UV15X-6NM-2 is a one component UV curing urethane acrylate system formulated for a variety of bonding, sealing, coating and encapsulation applications. This moderate viscosity product features flexibility, toughness and abrasion resistance. It is widely used for fiber-optic, optical (read more)
Browse UV Curing Adhesives Datasheets for Master Bond, Inc. -
Parallelism:<45” Coating: High optical density opaque chrome,Tabs<0.01%@Visible Wavelength Transparent Area, AR: R<0.35%@Visible Wavelength Process: Glass Etched and Fill in with Sodium Silicate and Titanium Dioxide (read more)
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Easypoxy® K-230 Optically clear in thin film, semi-flexible Excellent for bonding glass and dissimilar materials Polyurethane ELANTAS (read more)
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Test Report: PEEK Coated Optical Fiber Evaluation
To evaluate the utility and performance of PEEK coated optical fibers and Zeus' coating process, Zeus, in conjunction with Luna Innovations Incorporated, carried out testing of PEEK coated and uncoated single-mode Nufern 155 um polyimide R1550B-P optical fiber. Testing was done to compare
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Gold and Aluminum Buffered Optical Fibers - What, Why, and Where (.doc)
Optical fibers are typically manufactured from a preform consisting of a silica core which may be doped silica or pure silica and a cladding classically of silica having a lower refractive index than the core. An additional layer or coating/buffer is added to prevent the ingress of moisture
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Characterization of polyimide-coated optical fibers
D. R. Biswas, ''High temperature strength and fatigue behavior of poly- imide coated optical fibers ," Tech.
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Fiber Optic Smart Structures
Tests of Polyimide Coated Optical Fibers Embedded in Neal Resin.
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Transverse strength of composites containing optical fibers
Furthermore, polyimide coated optical fibers appear to have less of an effect on transverse strength than do uncoated optical fibers.
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Advances in Design and Development of Optical Fibers for Harsh Environments
Fig. 2 SEM micrographs of the surface of the polyimide coating on the standard carbon/ polyimide coated optical fibers before (a) and after (b) the high pressure water soaking and heating in air at 300°C for 2 days.
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Polyimide-coated embedded optical fiber sensors
The blocks were brought up to temperature with the PEEK impregnated carbon fiber and with the polyimide coated optical fibers placed in a die with equal numbers of prepreg sheets above and below the optical fiber.
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Strength and failure mechanisms of polyimide-coated optical fibers
For embedded sensory applications, polyimide coated optical fibers are preferred to the traditional acrylate-coated fibers used in the telecommunications industry, where important properties are ease-of-handling and strippability.
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Impact damage detection in filament wound tubes utilizing embedded optical fibers
Figure 2 Micrograph of a 3 cover +1- 750 glass fibre reinforced composite (GFRC) filament wound tube with an embedded polyimide coated optical fibre (x250).
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Pultrusion of smart FRP composites
Fig. 3 SEM micrograph shows excellent interface between polyimide coated optical fiber and host material (500 x).
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Processing and characterization of smart composite reinforcement
SEM micrographs of pultruded rods with embedded optical fibers"2, indicated an excellent interface between polyimide coated optical fibers and the host material.
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Stripping and splicing polyimide-coated fibers
Polyimide coated optical fiber is held in the left and right v-grooves at a constant tension.