Using polychromatic synchrotron radiation, high-rate X-ray diffraction has been performed in-situ during dynamic tensile loading. Strain rates of 1000/s and 5000/s have been achieved with a miniature tension Kolsky bar for superelastic NiTi and 1100-O series aluminum, respectively. Via altering the ICCD exposure time, single pulse and 22-pulse diffraction has been performed thus resulting in temporal resolutions of 153 ns and 3.37 μs, respectively. Furthermore, simultaneous Phase Contrast Imaging has been used to track the sample through-thickness deformation process. Thus, it has been demonstrated that high-speed imaging and X-ray diffraction can be concurrently performed during the dynamic Kolsky bar loading process. It is also shown that...
This work presents a novel method of obtaining in situ strain measurements at high temperature by si...
The mechanical behavior of three engineering materials is studied employing in situ deformation meth...
International audienceOwing to its selectivity, diffraction is a powerful tool for analysing the mec...
This paper presents and discusses the methodology and technical aspects of mechanical tests carried ...
The combination of synchrotron radiation x-ray imaging and diffraction techniques offers new possibi...
Despite the limited opportunities in obtaining beam times and difficulties in analysing data, modern...
Understanding the conditions that drive phenomena like fatigue crack initiation in polycrystalline s...
The primary aim of this research was to develop and improve the experimental method and data interpr...
International audienceThe combination of synchrotron radiation X-ray imaging and diffraction techniq...
Quantifying the state of materials and understanding their micromechanical behavior are ever more im...
The combination of X-ray imaging and diffraction techniques provides a unique tool for structural an...
International audienceThe quantification and localization of elastic strains and defects in crystals...
A caked synchrotron X-ray diffraction (SXRD) dataset, recording diffraction pattern rings during the...
Two common studies in material science are stress analysis, and x-ray diffractometry. Stress analysi...
In order to predict the durability of engineering components and improve performance, it is mandator...
This work presents a novel method of obtaining in situ strain measurements at high temperature by si...
The mechanical behavior of three engineering materials is studied employing in situ deformation meth...
International audienceOwing to its selectivity, diffraction is a powerful tool for analysing the mec...
This paper presents and discusses the methodology and technical aspects of mechanical tests carried ...
The combination of synchrotron radiation x-ray imaging and diffraction techniques offers new possibi...
Despite the limited opportunities in obtaining beam times and difficulties in analysing data, modern...
Understanding the conditions that drive phenomena like fatigue crack initiation in polycrystalline s...
The primary aim of this research was to develop and improve the experimental method and data interpr...
International audienceThe combination of synchrotron radiation X-ray imaging and diffraction techniq...
Quantifying the state of materials and understanding their micromechanical behavior are ever more im...
The combination of X-ray imaging and diffraction techniques provides a unique tool for structural an...
International audienceThe quantification and localization of elastic strains and defects in crystals...
A caked synchrotron X-ray diffraction (SXRD) dataset, recording diffraction pattern rings during the...
Two common studies in material science are stress analysis, and x-ray diffractometry. Stress analysi...
In order to predict the durability of engineering components and improve performance, it is mandator...
This work presents a novel method of obtaining in situ strain measurements at high temperature by si...
The mechanical behavior of three engineering materials is studied employing in situ deformation meth...
International audienceOwing to its selectivity, diffraction is a powerful tool for analysing the mec...