Assessing the use of an infrared spectrum hyperpixel array imager to measure temperature during additive and subtractive manufacturing

Abstract: Accurate non-contact temperature measurement is important to optimize manufacturing processes. This applies to both additive (3D printing) and subtractive (material removal by machining) manufacturing. Performing accurate single wavelength thermography suffers numerous challenges. A potential alternative is hyperpixel array hyperspectral imaging. Focusing on metals, this paper discusses issues involved such as unknown or changing emissivity, inaccurate greybody assumptions, motion blur, and size of source effe… Show more

“…For example, it imaged complex chemical reactions in a plume of gas in the infrared wavelength range [238]. The spectrum information also marked temperature changes in additive and subtractive manufacturing [240]. Furthermore, this technique aided the spatiotemporal refocusing of a femtosecond laser pulse through a scattering medium [241].…”

Punching holes in light: recent progress in single-shot coded-aperture optical imaging

“…For example, it imaged complex chemical reactions in a plume of gas in the infrared wavelength range [238]. The spectrum information also marked temperature changes in additive and subtractive manufacturing [240]. Furthermore, this technique aided the spatiotemporal refocusing of a femtosecond laser pulse through a scattering medium [241].…”

Punching holes in light: recent progress in single-shot coded-aperture optical imaging