Emission reabsorption laser induced fluorescence (ERLIF) film thickness measurement

Hidrovo, Carlos; Hart, Douglas P.

doi:10.1088/0957-0233/12/4/310

Cited by 84 publications

(51 citation statements)

References 10 publications

(10 reference statements)

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“…The dye then emits light at a lower frequency and the intensity of this emission provides a measure of film thickness [22]. In a more sophisticated approach, double-dye LIF is employed in which the emission from one dye excites a second fluorescent dye present and the ratio of the emission from the two dyes is used to calculate film thickness [33]. The LIF technique has proved to be effective for measuring and mapping film thickness in soft-EHL [34,35] but in practice is considerably less accurate than optical interferometry as used in hard-EHL.…”

Section: Figure 2 Optical Interferometry Set-up To Measure Lubricantmentioning

confidence: 99%

Elastohydrodynamic film thickness of soft EHL contacts using optical interferometry

Marx

Guegan

Spikes

2016

Tribology International

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Robust, chromium, semi-reflective coatings have been applied to transparent polymethylmethacrylate and polyurethane discs and this has enabled conventional, normal incidence optical interferometry to be used to measure lubricant film thickness in soft EHL conditions for the first time. High quality interferograms comparable to those obtained from coated glass discs are obtained. Measured film thickness has been compared with existing soft EHL film thickness equations obtained using computer modelling and revised central and minimum film thickness equations have been proposed. These film thickness measurements and measurement technique have applicability to our understanding of the performance and design of lubricated gears and bearings manufactured from polymeric materials.

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Section: Figure 2 Optical Interferometry Set-up To Measure Lubricantmentioning

confidence: 99%

Elastohydrodynamic film thickness of soft EHL contacts using optical interferometry

Marx

Guegan

Spikes

2016

Tribology International

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“…For compliant contacts, where extensive film thickness investigations have yet to be carried out, no comparable calibration was possible. Hidrovo et al [23] and Poll et al [6] used an assumed geometry of a calibration wedge or cylinder, respectively. Hidrovo has remarked on the effect of reflectivity on emission intensity, and pointed out that any difference between the calibration piece and the test specimen will introduce an error when converting intensity to film thickness.…”

Section: Calibrationmentioning

confidence: 99%

“…Measured fluorescence intensity is a function of the dye characteristics, the dye concentration, the exciting light intensity, and the scalar being measured. Once a particular dye and concentration are selected, the fluorescence dependence on these factors is constant [23].…”

Section: Introductionmentioning

confidence: 99%

Laser-induced fluorescence for film thickness mapping in pure sliding lubricated, compliant, contacts

Myant

Reddyhoff

Spikes

2010

Tribology International

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“…Here, a non-linear Beer-Lambert law relating the incident light intensity, emission light intensity, film thickness, fluorescent dye concentration and extinction coefficient was used to determine the local variations in the film thickness. A more advanced technique proposed by Hidrovo & Douglas (2001) employs a dual emission laser induced fluorescence technique for the measurement of liquid film thickness where, the fluid contains two dyes such that the emission spectrum of one dye overlaps the absorption spectrum of another dye. The ratio of the emission intensity of the two dyes obtained from the Beer-Lambert law for the case of very thin liquid films is independent of the intensity of the incident light and becomes a function of thickness alone.…”

Section: Introductionmentioning

confidence: 99%

Stability of a moving radial liquid sheet: experiments

2015

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A recent theory [Tirumkudulu & Paramati, "Stability of a moving radial liquid sheet: Time dependent equations.", Phys. of Fluids, 102107, 25, 2013] for a radially expanding liquid sheet that accounts for liquid inertia, interfacial tension and thinning of the liquid sheet while ignoring inertia of surrounding gas and viscous effects shows that such a sheet is convectively unstable at all frequencies and Weber numbers (W e ≡ ρ l U 2 h/σ) to small sinuous disturbances. Here, ρ l and σ are the density and surface tension of the liquid, respectively, U is the speed of the liquid jet, and h is the local sheet thickness. In this study, we use a simple non-contact optical technique based on laser induced fluorescence to measure the instantaneous local sheet thickness and its displacement of a circular sheet produced by head on impingement of two laminar jets. When the impingement point is disturbed via acoustic forcing, sinuous waves produced close to the impingement point travel radially outward. The phase speed of the sinuous wave decreases while the amplitude grows as they propagate radially outwards. Our experimental technique was unable to detect thickness variations in the presence of forcing suggesting that the variations could be smaller than the resolution of our experimental technique. The measured phase speed of the sinuous wave envelope matches with predictions while there is a qualitative agreement in case of spatial growth. We show that there is a range of frequencies over which the sheet is unstable due to both aerodynamic interaction and thinning effects while outside this range, thinning effects dominate. These results imply that a full theory that describes the dynamics of a radially expanding liquid sheet should account for both effects.

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Emission reabsorption laser induced fluorescence (ERLIF) film thickness measurement

Cited by 84 publications

References 10 publications

Elastohydrodynamic film thickness of soft EHL contacts using optical interferometry

Elastohydrodynamic film thickness of soft EHL contacts using optical interferometry

Laser-induced fluorescence for film thickness mapping in pure sliding lubricated, compliant, contacts

Stability of a moving radial liquid sheet: experiments

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