Combined thermographic phosphor and digital image correlation (TP + DIC) for simultaneous temperature and strain measurements

Jones, Elizabeth M. C.; Jones, Amanda; Winters, Caroline

doi:10.1111/str.12415

Cited by 7 publications

(6 citation statements)

References 41 publications

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“…Beyond advances in new techniques, such as NDS or microrheology, there are also important developments where instruments are being developed with multiple coupled characterization methods. Examples include combined thermal and strain measurements, 171 IR-rheological analysis, 172 and AFM-IR among many others. Without a doubt, this will continue to be an emerging area as techniques are coupled together and automated for facile analysis.…”

Section: Advanced Characterization Methodsmentioning

confidence: 99%

Educational series: characterizing crosslinked polymer networks

Rajawasam,

Dodo,

Weerasinghe

et al. 2024

Polym. Chem.

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Section: Advanced Characterization Methodsmentioning

confidence: 99%

Educational series: characterizing crosslinked polymer networks

Rajawasam,

Dodo,

Weerasinghe

et al. 2024

Polym. Chem.

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“…In order to generate a robust coating of phosphors that adhered well to the substrate with no need for binders, a tailored process for AD was developed. The AD setup used in this work has been described in [17,18], with additional process development detailed in [19,20]. An overview of the final process is presented here.…”

Section: Phosphor Calibration Sample Fabricationmentioning

confidence: 99%

“…An overview of the final process is presented here. Mg 3 F 2 GeO 4 :Mn (MFG) phosphor powder was obtained from Phosphor Technology Ltd and ball-milled, dried, and then ground with a mortar and pestle and sieved to <180 µm [20]. The powder was aerosolized in helium using a rotating brush generator (RBG) RBG1000isd powder feeder and a particle sizing cyclone, and accelerated to supersonic speeds through a 3D printed Vero polymer DeLaval converging-diverging nozzle into a vacuum to impinge on the sample.…”

Section: Phosphor Calibration Sample Fabricationmentioning

confidence: 99%

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Advances in phosphor two-color ratio method thermography for full-field surface temperature measurements

Jones

Hoffmeister

et al. 2022

Meas. Sci. Technol.

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Thermographic phosphors can be employed for optical sensing of surface, gas phase, and bulk material temperatures through different strategies including the time-decay method, time-integrated method, and frequency-domain method. We focus on the time-integrated method, also known as the ratio method, as it can be more practical in many situations. This work advances the ratio method using two machine vision cameras with CMOS detectors for full-field temperature measurements of a solid surface. A phosphor calibration coupon is fabricated using aerosol deposition and employed for in situ determination of the temperature-versus-intensity ratio relationship. Algorithms from Digital Image Correlation (DIC) are employed to determine the stereoscopic imaging system intrinsic and extrinsic parameters, and accurately register material points on the sample to subpixel locations in each image. Detector nonlinearity is carefully characterized and corrected. Temperature-dependent, spatial non-uniformity of the full-field intensity ratio—posited to be caused by a wavelength-dependent transmission efficiency of the lens—is assessed and treated for cases where a standard flat-field correction fails to correct the non-uniformity. In sum, pixel-wise calibration curves relating the computed intensity ratio to temperature in the range of T = 300 − 430 K are generated, with an embedded error of less than 3 K. This work offers a full calibration methodology and several improvements on two-color phosphor thermography applicable to all full-field temperature measurements.

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“…In recent work by [6], the suitability of such approaches is shown even for elevated temperatures and high strain rates. Instead of drawing on TG, [7] choose the thermographic phosphor technique and DIC to simultaneously measure temperature and strain information.…”

Section: Introductionmentioning

confidence: 99%

Coupled strain and temperature gradient analysis in curved surfaces

Müller‐Lohse,

Tröger,

Hartmann

2023

Proc Appl Math and Mech

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A common method in experimental mechanics is 3D digital image correlation (DIC) for determining deformations of curved surfaces, whereby the motion of material points is measured. The temperatures induced by the deformation of surfaces or by other heat sources are of particular interest as well. In this context, surface temperatures can be measured using infrared thermography systems. However, the disadvantage of this approach is that a thermographic camera only provides the two‐dimensional temperature distribution (plane images) of three‐dimensionally curved surfaces. Thus, the temperature and temperature gradients on the curved surface assigned to material points cannot be specified. However, for particular problems the temperature and the motion of material points are of particular interest. In the literature, planar problems are studied and simplifying assumptions are made so that a simple coupling of thermography and DIC is possible. In contrast, this contribution presents a method where 3D DIC is coupled with thermography in such a way that the temperature, temperature gradient, as well as displacement and strain distributions at material points of curved surfaces can be determined over temporal processes. The method also allows a continuous strain and temperature gradient determination over the entire domain, since a special class of functions named radial basis functions is used for interpolating the measured data.

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Combined thermographic phosphor and digital image correlation (TP + DIC) for simultaneous temperature and strain measurements

Cited by 7 publications

References 41 publications

Educational series: characterizing crosslinked polymer networks

Educational series: characterizing crosslinked polymer networks

Advances in phosphor two-color ratio method thermography for full-field surface temperature measurements

Coupled strain and temperature gradient analysis in curved surfaces

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