| People | Locations | Statistics |
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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Schimpf, C.
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (36/36 displayed)
- 2024Comparative Plasma Nitrocarburizing of AISI 316L and AISI 304 Steels Using a Solid Carbon Active Screen: Differences in the Developing Microstructurescitations
- 2022Effect of bias plasma on active screen nitrocarburising response of AISI 420 martensitic stainless steelcitations
- 2022Deformation behaviour of TWIP steels: Constitutive modelling informed by local and integral experimental methods used in concertcitations
- 2021Characterization of oxide layers formed on 10CrMo9-10 steel operated for a long time in the power industrycitations
- 2021Competition of mechanisms contributing to the texture formation in metastable austenitic steel under compressive loadcitations
- 2021Effect of Nitriding Potential K<sub>N</sub> on the Formation and Growth of a “White Layer” on Iron Aluminide Alloycitations
- 2021Extreme Biomimetics: Designing of the First Nanostructured 3D Spongin–Atacamite Composite and its Applicationcitations
- 2020Neutron diffraction analysis of stress and strain partitioning in a two-phase microstructure with parallel-aligned phasescitations
- 2020Structure assembly regularities in vapour-deposited gold–fullerene mixture filmscitations
- 2020Electrochemical method for isolation of chitinous 3D scaffolds from cultivated Aplysina aerophoba marine demosponge and its biomimetic applicationcitations
- 2020Author Correction: Neutron diffraction analysis of stress and strain partitioning in a two-phase microstructure with parallel-aligned phases (Scientific Reports, (2020), 10, 1, (13536), 10.1038/s41598-020-70299-1)
- 2020Extreme biomineralization: the case of the hypermineralized ear bone of gray whale (Eschrichtius robustus)citations
- 2019Deformation Mechanisms in Metastable Austenitic TRIP/TWIP Steels under Compressive Load Studied by in situ Synchrotron Radiation Diffractioncitations
- 2019Martensite formation during tensile deformation of high-alloy TRIP steel after quenching and partitioning route investigated by digital image correlationcitations
- 2019Heteroepitaxial growth of GaN on sapphire substrates by high temperature vapor phase epitaxycitations
- 2019Effect of the microstructure of graphitic boron nitride on the kinetics of the formation of boron nitride high-pressure phasescitations
- 2019Thermal Stability of Athermal ω-Ti(Fe) Produced upon Quenching of β-Ti(Fe)citations
- 2019Recent progress of high temperature vapor phase epitaxy for the growth of GaN layers – Controlled coalescence of nucleation layerscitations
- 2019Spider chitin: An Ultrafast Microwave-Assisted Method for Chitin Isolation from Caribena versicolor Spider Molt Cuticlecitations
- 2019Spider Chitin. The biomimetic potential and applications of Caribena versicolor tubular chitincitations
- 2019Tempering Reactions and Elemental Redistribution During Tempering of Martensitic Stainless Steelscitations
- 2019Defect-rich GaN interlayer facilitating the annihilation of threading dislocations in polar GaN crystals grown on (0001)-oriented sapphire substratescitations
- 2018Cementite evolution in medium manganese twinning-induced plasticity steelscitations
- 2016Microstructure and mechanical properties of bulk TiN-AlN composites processed by FAST/SPScitations
- 2016Investigation of Phase Transformations in High-Alloy Austenitic TRIP Steel Under High Pressure (up to 18 GPa) by In Situ Synchrotron X-ray Diffraction and Scanning Electron Microscopycitations
- 2016High-temperature stability of microstructure defects in graphitic boron nitride subjected to the field assisted sinteringcitations
- 2015The role of oxygen in shockwave-synthesized γ-Si<sub>3</sub>N<sub>4</sub> materialcitations
- 2015Interplay between microstructure and phase transition kinetics during the conversion from sp<sup>2</sup>- to sp<sup>3</sup>-hybridised BN under extreme conditions
- 2015Bulk titanium nitride ceramics-Significant enhancement of hardness by silicon nitride addition, nanostructuring and high pressure sinteringcitations
- 2015Corrugations of the basal planes in hexagonal boron nitride and their impact on the phase transition to cubic boron nitridecitations
- 2013Quantitative description of microstructure defects in hexagonal boron nitrides using X-ray diffraction analysiscitations
- 2012Interface phenomena in (super)hard nitride nanocomposites: From coatings to bulk materialscitations
- 2011Microstructure formation in electrodeposited Co-Cu/Cu multilayers with GMR effect: Influence of current density during magnetic layer depositioncitations
- 2010Microstructure investigations of the phase boundaries in the Bridgman TRIP steel crystalcitations
- 2009Formation of microstructural defects in electrodeposited Co/Cu multilayerscitations
- 2007Structure and wear mechanisms of nano-structured TiAlCN/VCN multilayer coatingscitations
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article
Deformation Mechanisms in Metastable Austenitic TRIP/TWIP Steels under Compressive Load Studied by in situ Synchrotron Radiation Diffraction
Abstract
The stress–strain behavior of austenitic steels showing the TRIP/TWIP effect can be adjusted in a broad range by the addition of suitable alloying elements. Although the underlying deformation mechanisms are reasonably understood, the existing models often fail, in particular when the density of microstructure defects is high and when individual microstructure defects and features start to interact. For a micromechanical description of the material behavior involving possible interactions between different microstructure defects in austenite (dislocations, stacking faults) and newly developed phases, a detailed in situ microstructure characterization of the material under load is needed. In this study, the in situ experiments are performed using synchrotron diffraction during uniaxial compression. The materials under study are Cr–Mn–Ni steels with different Ni contents (3, 6, and 9 wt%) and thus different stacking fault energies (7.5, 16.7, and 24.3 mJ m−2). The in situ measurements reveal information about the martensitic phase transformations and about the development of the defect structure of austenite. The latter is concluded from the broadening and shift of diffraction lines and interpreted in terms of the squared microstrain, which is proportional to the dislocation density, and the stacking fault probability. The changes in the phase composition and defect structure are correlated with the residual elastic lattice strain.