Combining thermal imaging and spectral pyrometry for express temperature mapping in additive manufacturing

A compact and low-cost two-dimensional (2D) thermal imager was developed for real-time temperature mapping of a melt pool during coaxial laser cladding (the additive manufacturing technique). The device combines a color CMOS camera and a compact spectrometer. The spectrometer was utilized for intern...

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Bibliographic Details
Published in:Applied optics (2004) 2023-01, Vol.62 (2), p.335
Main Authors: Grishin, M Ya, Sdvizhenskii, P A, Asyutin, R D, Tretyakov, R S, Stavertiy, A Ya, Pershin, S M, Liu, D S, Lednev, V N
Format: Article
Language:English
Subjects:
Additive manufacturing
Cameras
CMOS
Color
Flow velocity
Heat detection
Laser beam cladding
Lasers
Line spectra
Manufacturing
Mapping
Melt pools
Protective coatings
Pyrometry
Real time
Systematic errors
Thermal imaging
Tungsten carbide
Wear resistance
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Summary:A compact and low-cost two-dimensional (2D) thermal imager was developed for real-time temperature mapping of a melt pool during coaxial laser cladding (the additive manufacturing technique). The device combines a color CMOS camera and a compact spectrometer. The spectrometer was utilized for internal calibration and validation of a 2D temperature map that was acquired by the CMOS camera. The remarkable feature of the thermal imager is that camera images are calibrated directly during the measurement process utilizing spectral pyrometry. Additionally, the spectrometer decreased a potential systematic error due to a spectrum contribution from atomic/ionic lines emission. The spectral pyrometry provided temperature accuracy measurements of ±23 while two-dimensional (2D) temperature mapping by two-color pyrometry accuracy was estimated as ±38 in the range of 1700-3500 K. The system has been installed at a coaxial laser cladding head for real-time temperature mapping. The system was developed for measuring a melt pool during laser cladding production of a high wear-resistant coating (tungsten carbide particles in a nickel matrix). Tungsten carbides powder flow rate has been changed sequentially from 5 to 27 g/min by powder feeder programming, which resulted in a variation of melt pool dimensions and temperature maps during the cladding process.
ISSN:1559-128X
2155-3165
DOI:10.1364/AO.478113