Grease Thief Die Extrusion Test
The consistency of grease is determined by measuring the load under varying speeds during the extraction of the grease through an orfice slot. This is done using a load cell to compress the grease from the Grease Thief onto a thin plastic substrate. The consistency of the grease is compared to the baseline grease to measure changes in consistency to determine thinning or thickening of the grease.
Grease Colorimetry Testing
Grease Colorimetry Testing utilizes a patent-pending method that includes a visible spectrometer, a light-path sample cell, and a thin-film grease substrate to gather a visible light (400 nm to 700 nm) spectral graph of the grease sample. This method can be used to validate observed appearance changes in greases, trend darkening due to aging or overheating, characterize dye formulations of new greases, and can even approximate the concentration of certain particulate contaminants, such as coal dust or other solids accumulating in the grease.
FT-IR
FT-IR is used to fingerprint the molecular bonds in the grease. A thin strip of grease is dropped into the beam of the FT-IR where a fingerprint is taken of the sample. Similarly this is done with the baseline grease. The two spectra are overlaid and the analyst looks for differences between the two. Often time oxidation and grease mixing are spotted through this methodology.
RDE Spectroscopy
In Atomic Emission Spectroscopy the grease is made into a liquid form using a fixed amount of grease with a grease solvent mixture. The grease is dissolved in vial and ran in the RDE. The spectrometer is useful is detecting certain wear particles such Iron and Babbitt particulate as well looking for certain additive elements that could point towards grease mixing. Comparing element levels to the original baseline, grease mixing and wear metals are easily seen.
RULER
RULER Technology works on the principle of linear sweep voltometry. A variable voltage is applied to the sample while the current flow is measured. The presence of anti-oxidants remaining in the sample are determined. This test is useful in determining the remaining useful life of the anti-oxidants in the sample. Also, this test can be used to monitor the residual anti-oxidant purging out of the bearing to determine if the re-greasing cycle is at the appropriate time.
FdM+
The FdM+ is used as an overall monitoring device for wear concentration. This test uses the idea of the Hall Effect to determine the amount of ferromagnetic material present in the sample. This is used a general flagging device for the lab when wear levels are excessively high. Generally when the sample is 5,000 ppm Iron or higher analytical ferrography is recommended.
Analytical Ferrography
Analytical Ferrography is used as an advanced test to determine the amount, shape, composition and wear severity of the particulate in the sample.
Rheometer
Rheometer Testing is used as an advanced test to examine the consistency of grease. Using the cone and plate rheometer normal force measurements can be used to determine oscillation stress, recoverable compliance and G1 values.