Corentin Poissenot-Arrigoni scite author profile

To reduce the size of exit burrs induced by broaching, it is possible to use a low value martyred part clamped to the functional one on the tool exit side. Thence, this research work deals with an in-situ analysis of the burr formation at a bi-specimens interface in orthogonal cutting configuration. New mechanisms of burr formation at the interface formed by Inconel 718 and cast iron specimens are identified. In addition, a post-machining study is carried out to quantify the burr size obtained with and without the martyred part.

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In-situ pixel wise emissivity measurement using a multispectral infrared camera

Poissenot-Arrigoni

Marcon

Rossi

et al. 2023

Preprint

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In the thermography process, accurately determining emissivity is crucial for obtaining precise temperature measurements as it enables the conversion of radiometric values to absolute temperatures. However, assessing emissivity is not a straightforward task as it depends on various other parameters. Traditional methods for measuring emissivity often involve costly materials and cannot be carried out simultaneously with infrared image acquisition. This article presents a method for obtaining pixel-wise emissivity using data from a multispectral infrared camera. Consequently, this method allows for direct emissivity measurement during infrared camera acquisition without the need for additional materials or experiments.

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Corentin Poissenot-Arrigoni

Fast and easy radiometric calibration method integration time insensitive for infrared thermography

Burr Formation at the Interface During Bi-Material Orthogonal Cutting

In-situ pixel wise emissivity measurement using a multispectral infrared camera

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