Translume markets a variety of products based on its proprietary glass micromachining capabilities...

• Microfluidic Chips: Translume has been making custom microfluidic chips for its customers for years. Now, Translume is pleased to offer a new array of microfluidic chips, both for standard industry requirements and for advanced applications. All our chips are made of fused silica, the industry preferred material. Furthermore they feature deep high-aspect ratio channels-- all this at surprisingly affordable prices. Place your order at at our online store.
  
  
• Precision Apertures: Translume produces an unmatched family of precision apertures, pinholes and slits. All our precision apertures are fabricated from high-purity fused silica, a material that has been shown to handle peak power and high energy pulses much more gracefully than the industry standard metal apertures. Our precision apertures have additional unique features such as soft aperturing and thick robust substrates. Place your order at at our online store.
  
  
• Oil Monitoring Systems: Translume has developed a micro-fluidic soot agglomeration detection system for lubricating oils, combines Translume’s micro-optic and micro-fluidic technologies into a single integrated solution, enabling the real-time, on-line monitoring of oil characteristics at one site, or across multiple locations via satellite communication. Translume is leading the way when it comes to Condition Based Maintenance (CBM) for lubricating oils. Visit our wesbsite for this product at www.sootsmart.com
  
  
• Other Fluid Monitoring Systems: Translume is working with strategic partners to bring its optical expertise to the lab and field with sensors, instruments and software for measuring the properties of fluids. Translume fluid condition monitoring systems have already been tested in a wide variety of applications, from biological samples to industrial fluids to packaged goods.
  
  
• Optical Devices for Aerospace: Translume has also created a number of optical devices for a variety of applications. Out of these efforts has evolved the design for a single mode fiber optic connector, a critical component for future photonic-based communication systems, including aircraft control and communication systems.