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The HT-S4DefOx project focuses on understanding the behavior of structural materials at high temperatures and loads. It employs advanced micromechanical techniques to study how oxidation affects material deformation and reactivity, aiming to prevent premature damage in critical components.
Structural materials exposed at high temperatures (650°C-1200°C) and severe loads are prone to both local oxidation-assisted deformation and deformation-assisted surface reactivity.
Material evolutions within the sub-surface region affected by oxidation (0.1 to 100 µm deep gradient) generally drive premature damage and the unexpected ruin of bulky structural components.
Therefore, assessing the evolutions of the local deformation at the sub-grain scale at high temperature using micro- and mesome…
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS
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