End-fused fiber bundles | מיזוג סיבים בכבל אופטי
מיזוג סיבים הוא בעצם היתוך סיבים אופטיים יחד על מנת לשפר את יכולת העברת האור בעשרות אחוזים ומעביר כתשעים וחמישה אחוזים מהאור הנכנס לסיבים תוך שמירה על מפתח נומרי גבוה
הכבל עם הסיבים הממוזגים, או המותכים, יחדיו, מסוגל להחזיק מעמד בטמפרטורות גבוהות עד אפילו 600 מעלות צלזיוס. נוסף על כך, יכולות הביצוע של הכבל אינן יורדות לאורך השנים כמו מוליך אור נוזלי וניתן להזמין כבל זה כמעט בכל אורך נדרש
בכבל זה נעשה שימוש ביישומים הבאים
תעשייתי / מדעי / רפואי
תחליף למוליכי אור נוזליים
ספקטרוסקופיה
חיישנים
פוטוליתוגרפיה
ריתוך / הלחמה / סימון לייזר
מכשירים אנליטיים
צמת דיודה לייזר
פירומטריה
תאורה ובקרה
ריפוי
יישומים בטמפרטורה גבוהה
אבחון רפואי
טיפול פוטודינמי
טיפולים רפואיים כמו טיפול אולטרה סגול בפסוריאזיס
אתם מוזמנים ליצור איתנו קשר לקבלת מידע נוסף, ייעוץ והצעת מחיר
התקשרו עכשיו
נשמח לעמוד לשרותכם
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English:
Fiber optic cable
Fiber conditioning is basically fusion of fiber optics together to improve light transmission capacity by tens of percent and transmits about ninety-five percent of light entering fiber while maintaining a high numeric key
The blended fiber, or molten fiber, together can withstand high temperatures up to even 600 degrees Celsius. In addition, the cable’s performance capabilities do not decline over the years like a liquid light conductor and this cable can be ordered for almost any length
This cable is used in the following applications
Industrial / scientific / medical
A replacement for liquid light conductors
Spectroscopy
Sensors
Photolithography
Welding / soldering / laser marking
Analytical instruments
Laser diode braid
Pyrometry
Lighting and control
healing
High temperature applications
Medical diagnosis
Photodynamic therapy
Medical treatments like ultraviolet therapy in psoriasis
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Here are 10 similar or complementary products in high demand today:
- Flexible Imaging Bundles: These are bundles of ordered fibers that maintain their spatial relationship from one end to the other. They are similar to end-fused bundles but are specifically designed for transmitting images from a hard-to-reach area, such as in endoscopes.
- Bifurcated (Y) or Multi-Branch Fiber Bundles: These bundles have one common input end that splits into two or more separate output legs. They’re popular for splitting a single light source into multiple paths or for combining light from multiple sources into one.
- Flexible Light Guides: These are often simpler, non-fused fiber bundles. They are in high demand for basic light delivery applications in microscopy, machine vision, and medical illumination where a high-power, durable end face isn’t the primary concern.
- Liquid Light Guides: As a low-cost alternative to fiber bundles, these guides use a core of liquid within a flexible jacket to transmit incoherent light. They’re popular for delivering high-intensity light in the visible spectrum, particularly in applications like microscopy and UV curing.
- Single-Mode Fiber Assemblies: While not a bundle, single-mode fiber is the dominant technology for long-distance, high-bandwidth data transmission. It is in constant top demand for telecommunications and data center networking.
- Laser Collimators and Beam Expanders: These are optical components used to shape the output of a laser or a fiber, similar to how an end-fused bundle shapes light. They’re essential for optimizing laser delivery in industrial and scientific applications.
- Fiber Optic Plates and Tapers: These are rigid, fused fiber optic components. Plates are used for vacuum interfaces and image transfer, while tapers are used to magnify or reduce an image from one end to the other.
- Multi-core Fibers: This is a more advanced fiber technology where a single fiber has multiple cores, effectively acting as a very small, integrated bundle. They are in demand for high-density communication and next-generation sensing.
- Fiber-coupled Light Sources (Halogen/LED): These are light sources specifically designed to couple their output directly into a fiber bundle. They are in high demand as a complete solution for various illumination needs, particularly in industrial and research settings.
- Spectroscopy Probes: These are highly specialized bundles, often with a specific fiber arrangement (e.g., a central illumination fiber surrounded by collection fibers), used to collect spectroscopic data from a sample. They are a core consumable in analytical chemistry.
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