An improved lagrangian thermography procedure for the quantification of the temperature fields within polycrystals

R Seghir, JF Witz, L Bodelot, E Charkaluk… - Quantitative InfraRed …, 2013 - Taylor & Francis
Polycrystalline metallic materials are made of an aggregate of grains more or less well
oriented with respect to the loading axis. During mechanical loading, the diversity of grain …
被引用次数:13 相关文章

An improved Lagrangian thermography procedure for the quantification of the temperature fields within polycrystals

R Seghir, JF Witz, L Bodelot, E Charkaluk… - Quantitative InfraRed …, 2013 - hal.science
Polycrystalline metallic materials are made of an aggregate of grains more or less well
oriented with respect to the loading axis. During mechanical loading, the diversity of grain …

An improved Lagrangian thermography procedure for the quantification of the temperature fields within polycrystals

R Seghir, JF Witz, L Bodelot, E Charkaluk… - Quantitative InfraRed …, 2013 - inria.hal.science
Polycrystalline metallic materials are made of an aggregate of grains more or less well
oriented with respect to the loading axis. During mechanical loading, the diversity of grain …

[引用][C] An improved lagrangian thermography procedure for the quantification of the temperature fields within polycrystals

R Seghir, JF Witz, L Bodelot, E Charkaluk… - Quantitative InfraRed …, 2013 - cir.nii.ac.jp
An improved lagrangian thermography procedure for the quantification of the temperature
fields within polycrystals | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] …
[PDF] hal.science

[PDF][PDF] An improved Lagrangian thermography procedure for the quantification of the temperature fields within polycrystals

R Seghir, JF Witz, L Bodelot, E Charkaluk, P Dufrenoy - hal.science
Polycrystalline metallic materials are made of an aggregate of grains more or less well
oriented with respect to the loading axis. During mechanical loading, the diversity of grain …