International audienceImproved mechanical behavior of surface nanostructured metallic materials produced by means of a surface mechanical attrition treatment (S.M.A.T) is investigated experimentally. Based on microscopic observations and residual stress measurements, factors leading to the high strength and yielding are discussed. The effects due to treatment, as compressive residual stresses, are in that way studied for a better understanding of their influence on the global mechanical response of the nanostructured material. In regards of this, a simple way to increase the ductility of such a nanostructured material is also presented
International audienceGradient microstructure generated by surface mechanical attrition treatment (S...
The development of nanocrystalline structures in austenitic stainless steels during large strain col...
International audienceThe effects of machining such as grinding and turning on the microstructural a...
AbstractThe ability to create structural materials of high yield strength and yet high ductility has...
Nanostructured materials exhibit superior properties with respect to their bulk counterpart. Recentl...
International audienceThe effect of a nanocrystalline surface layer on the fatigue behavior of a 316...
A nanostructured surface layer (NSSL) was generated on a 316L stainless steel plate through surface ...
International audienceThis paper discusses the mechanical properties of a nanocrystallised stainless...
In this study, the effects of Ultrasonic Nano-crystal Surface Modification (UNSM) on residual stress...
Direct Energy Deposition (DED), as one common type of additive manufacturing, is capable of fabricat...
tal fo e 1 vior sur these mechanical characteristics after SMAT can be significantly improved by the...
Surface mechanical attrition treatment (SMAT) is a high strain and strain rate severe plastic deform...
AbstractEngineering nanostructures in metallic materials such as nanograins and nanotwins can promot...
International audienceSurface Mechanical Attrition Treatment (SMAT) is one of the most promising mec...
The study addresses how surface nanostructuring of AISI 304 stainless steel (SS) by surface mechanic...
International audienceGradient microstructure generated by surface mechanical attrition treatment (S...
The development of nanocrystalline structures in austenitic stainless steels during large strain col...
International audienceThe effects of machining such as grinding and turning on the microstructural a...
AbstractThe ability to create structural materials of high yield strength and yet high ductility has...
Nanostructured materials exhibit superior properties with respect to their bulk counterpart. Recentl...
International audienceThe effect of a nanocrystalline surface layer on the fatigue behavior of a 316...
A nanostructured surface layer (NSSL) was generated on a 316L stainless steel plate through surface ...
International audienceThis paper discusses the mechanical properties of a nanocrystallised stainless...
In this study, the effects of Ultrasonic Nano-crystal Surface Modification (UNSM) on residual stress...
Direct Energy Deposition (DED), as one common type of additive manufacturing, is capable of fabricat...
tal fo e 1 vior sur these mechanical characteristics after SMAT can be significantly improved by the...
Surface mechanical attrition treatment (SMAT) is a high strain and strain rate severe plastic deform...
AbstractEngineering nanostructures in metallic materials such as nanograins and nanotwins can promot...
International audienceSurface Mechanical Attrition Treatment (SMAT) is one of the most promising mec...
The study addresses how surface nanostructuring of AISI 304 stainless steel (SS) by surface mechanic...
International audienceGradient microstructure generated by surface mechanical attrition treatment (S...
The development of nanocrystalline structures in austenitic stainless steels during large strain col...
International audienceThe effects of machining such as grinding and turning on the microstructural a...