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Quartz Angled Light Guiding Rod

Varilla guía de luz angular de cuarzo

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    A 45-degree angled quartz light guide rod is manufactured using specific angle cutting or forming processes, giving it a 45-degree angled surface. This design facilitates light transmission or redirection in a specific direction, accommodating particular optical system requirements.

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      It depends on the customer.

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    ① outer diameter ② length ③ quantity

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      Contenido de la propiedadValores inmobiliarios
      SiO299.99%
      Densidad2,2×10³ kg/cm³
      Dureza5,5 - 6,5 Escala de Mohs 570 KHN 100
      Resistencia a la tracción4,8×10⁷ Pa (N/mm2) (7000 psi)
      Resistencia a la compresión>1,1×10⁹ Pa (160.000 psi)
      Coeficiente de dilatación térmica5,5×10-⁷ cm/cm-°C (20°C-320°C)
      Conductividad térmica1,4 W/m-°C
      Calor específico670 J/kg-°C
      Punto de ablandamiento1730°C (3146°F)
      Punto de recocido1210°C (2210°F)
      Punto de deformación1120°C (2048°F)
      Temperatura de trabajo1200°C (2192°F)
      Resistividad eléctrica7×10⁷ ohm cm (350°C)
      TallaPersonalizado
      LogotipoLogotipo personalizado Aceptar

      There are two primary methods for producing quartz rods: the continuous method and the flame fusion method (also known as the gas fusion method).

      Continuous Method: In this method, quartz sand is fed from the top into a furnace, which comprises a metallic quartz crucible surrounded by electric heating elements. The quartz sand melts at high temperatures. The molten material then passes through a shaping orifice at the bottom of the crucible, producing rods, tubes, sheets, or other various specified product forms.

      Flame Fusion Method: This method involves using hydrogen and oxygen to melt colorless quartz crystal. The molten material is formed into quartz glass through the melting and congealing of crystalline particles in the flame. The quartz glass is then removed from the flame through different methods and processed into quartz rods of the desired shape.

      45-Degree Angled Design

      This light guide rod is manufactured with a specific angle cutting or forming process to create a 45-degree angled surface. This design facilitates specific directional light transmission or redirection to meet the needs of particular optical systems.

      High Light Transmittance

      Made from high-purity quartz material, this light guide rod exhibits excellent light transmission, ensuring high throughput of light signals during transmission and minimizing light loss.

      High-Temperature and Corrosion Resistance

      The quartz material provides outstanding resistance to both high temperatures and corrosion, enabling the light guide rod to maintain stable performance even in harsh environmental conditions.

      High-Precision Machining

      To ensure the accuracy and finish of the 45-degree angled surface, this light guide rod undergoes precision machining and polishing processes, meeting high-precision optical requirements.

      Escenario de aplicación

      Optical Systems

      45-degree angled quartz light guide rods are widely used in various optical systems, such as optical sensors, optical imaging systems, and lasers. They play a vital role in these systems for transmitting, redirecting, or focusing light signals.

      Medical Equipment

      In the medical equipment field, 45-degree angled quartz light guide rods are extensively used in laser surgical instruments and optical microscopes. They ensure precise transmission and imaging of light signals, thereby enhancing the performance and accuracy of medical devices.

      Scientific Research

      In scientific research, researchers use 45-degree angled quartz light guide rods to construct diverse optical experimental systems for studying optical phenomena and the properties of optical materials. The high precision and stability of these light guide rods ensure more reliable and accurate experimental results.

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      El vidrio de cuarzo es un material duro y quebradizo con excelentes propiedades físicas y químicas, dureza mecánica extremadamente alta, buen aislamiento eléctrico, resistencia a altas temperaturas y a la corrosión, rendimiento de retardo bajo y estable, buena transmitancia luminosa, etc. Se utiliza ampliamente en semiconductores, óptica, electricidad, química, aeroespacial, automoción y otros campos. Los materiales duros y quebradizos son difíciles de procesar, y muchos campos necesitan urgentemente procesos de corte con un pequeño colapso del borde, menos pérdida de material, baja rugosidad de la sección transversal y un amplio rango de grosor de corte. El método de corte tradicional del vidrio de cuarzo es el corte mecánico, es decir, el corte por disco. Los métodos de corte no tradicionales incluyen el corte por chorro de agua, el corte por hilo de descarga electroquímica, el corte por láser continuo, etc. El corte mecánico tiene un bajo coste, pero el contacto entre la rueda y el material causa un gran desgaste de la herramienta, y el material es fácilmente contaminado por la herramienta. El vidrio de cuarzo es propenso al colapso de los bordes, las microfisuras y la tensión residual, lo que afecta a la resistencia y el rendimiento del material. Es difícil conseguir un corte curvo y requiere un tratamiento posterior, como esmerilado y pulido. El corte por láser no entra en contacto directo con el material, no tiene tensión de contacto y puede realizar cortes curvos complejos. El láser de picosegundos tiene las ventajas de un diámetro de punto pequeño, alta precisión, tiempo de acción corto con el material y área de acción pequeña, y es adecuado para el procesamiento de materiales duros y quebradizos.