Lubricant, Olive Oil, Motor Oil - Test viscous liquids with the Specac Pearl
Olive Oil in a 50 microns pathlength wedged ZnSe Oyster Cell.
Olive Oil in a 50 microns pathlength wedged ZnSe Oyster Cell.
Corn Oil in a 50 microns pathlength wedged ZnSe Oyster Cell.
Corn Oil in a 50 microns pathlength wedged ZnSe Oyster Cell.

Mass spectrometry & spectroscopy

Lubricant, Olive Oil, Motor Oil - Test viscous liquids with the Specac Pearl

12 Jan, 2016

Published over 10 years ago. See the latest and most current information on Mass spectrometry & spectroscopy.

The latest innovation from our Brit-lab engineers at Specac is The Pearl, a new liquid FTIR transmission analysis essential.

The Pearl houses all fluid consistencies, no mess and no fuss. With a pipette or with a syringe, users can introduce a liquid sample and clean up in seconds.

Today we’re specifically looking at the testing of viscous liquids such as oils and greases. This brief application note will go through The Pearl’s following processes and benefits:

  1. Introduce sample (quickly)
  2. Test sample (accurately)
  3. Clean Pearl (easily)

Introduction

Find a viscous liquid to sample. Don’t spill it. Pull out The Pearl’s sample drawer and open the Oyster Cell by lifting-and-tilting its upper window. With a pipette, introduce a small amount of the sample onto the lower window of the Oyster Cell. When you close the Oyster Cell, the liquid cavity is sealed between the top and bottom windows. Close and check through the top window for any bubbles or other visible sample imperfections. If you’re happy, close the sliding drawer and prepare to test. Done.

Testing

The lower window in the Oyster Cell is interchangeable. Changing this lower window allows you to choose an optimum pathlength and whether you’d like the two windows parallel to each other or at a wedged angle. A wedged angle guarantees no fringing pattern when you measure an empty cell.

In our example, we tested cooking oils. We used a Shimadzu IR Affinity spectrometer to collect data. 16 scans were obtained at 4m-1 resolution, using the DTGS detector for all samples run. We fitted the appropriate 50 micron or 100 micron pathlength wedged Oyster Cell, then tested the empty Oyster Cell to collect a reference background spectrum We changed the lower Oyster Cell window twice to adjust pathlength. Window assembly P/N GS33221 for 50 micron, P/N GS33222 for 100 micron.

Cleaning

Collect your spectral reading, open the sliding tray, open the hinged Oyster Cell by lifting-and-tilting the top window and wipe the Oyster Cell windows clean. Use a soft lens cleaning-type tissue, moistened with a suitable solvent if needed. Then wipe with a dry lens cleaning-type tissue. Now you’re ready for your next sample.

If only all cleaning was this easy. Get in touch for more info.

Final word

Most people dread setting up and cleaning up, but we’ve reduced those steps to moments. Just don’t spill oil on the floor, because The Pearl can’t fix that and it’s very slippy.

Please view our video

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