693.932 PEOPLE
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| Naji, M. |
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| Petrov, R. H. | Madrid |
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Huneau, Bertrand
École Centrale de Nantes
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (30/30 displayed)
- 2024Tensile and shear behavior of recycled AA 6060 aluminium chips by direct hot extrusioncitations
- 2021Multiaxial fatigue experiments for elastomers based on true strain invariantscitations
- 2020Real time imaging of strain fields induced by the ferrite-to-austenite transformation in high purity ironcitations
- 2019Fatigue crack initiation around inclusions for a carbon black filled natural rubber: an analysis based on micro-tomographycitations
- 2019Fatigue crack initiation around inclusions for a carbon black filled natural rubber: an analysis based on micro-tomographycitations
- 2019Mesoscopic Strain Fields Measurement During the Allotropic α − γ Transformation in High Purity Ironcitations
- 2019Effects of acrylonitrile content and hydrogenation on fatigue behaviour of HNBRcitations
- 2019A physically-based model for strain-induced crystallization in natural rubber. Part II: Derivation of the mechanical modelcitations
- 2019Influence of defects size on the fatigue properties of an industrial EPDM
- 2018Electrospun PMMA polymer blend nanofibrous membrane: electrospinability, surface morphology and mechanical responsecitations
- 2017True stress controlled fatigue life experiments for elastomerscitations
- 2017True stress controlled fatigue life experiments for elastomerscitations
- 2016Fatigue resistance of natural rubber in seawater with comparison to aircitations
- 2016Fatigue crack initiation in a carbon black-filled natural rubbercitations
- 2014Multiaxial deformation and strain-induced crystallization around a fatigue crack in natural rubbercitations
- 2013Effect of strain-induced crystallization on fatigue crack growth resistance of natural rubber
- 2013Fatigue damage in carbon black filled natural rubber under uni- and multiaxial loading conditionscitations
- 2013Fatigue damage in carbon black filled natural rubber under uni- and multiaxial loading conditionscitations
- 2011Strain-Induced Crystallization of Natural Rubber: a Review of X-ray Diffraction Investigationscitations
- 2011Interfacial Reaction during Friction Stir Welding of Al and Cucitations
- 2010In-Situ SEM Study of Fatigue Crack Growth Mechanism in Carbon Black filled Natural Rubbercitations
- 2010Friction stir diffusion bonding of dissimilar metalscitations
- 2008Precipitate stability and recrystallisation in the weld nuggets of friction stir welded Al-Mg-Si and Al-Mg-Sc alloys.citations
- 2008Precipitate stability and recrystallisation in the weld nuggets of friction stir welded Al-Mg-Si and Al-Mg-Sc alloys.citations
- 2008Comparison of TIG welded and friction stir welded Al-4.5Mg-0.26Sc alloycitations
- 2008Comparison of TIG welded and friction stir welded Al-4.5Mg-0.26Sc alloycitations
- 2006Evaluation of environmental effects on fatigue crack growth behaviour of a high strength steel in a saline solution with cathodic protectioncitations
- 2005Micro-mechanism of fatigue crack growth: Comparison between carbon black filled NR and SBRcitations
- 2003Fatigue behavior of a high strength steel in vacuum, in air and in 3.5% NaCl solution under cathodic protectioncitations
- 2000Experimental investigation in the quaternary systems Ti-Ni-Al-N and Ti-Ni-Al-Ocitations
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article
Fatigue behavior of a high strength steel in vacuum, in air and in 3.5% NaCl solution under cathodic protection
Abstract
International audience ; Commercially pure copper was joined to a 1050 aluminum alloy by friction stir welding. A specific configuration where the tool pin was fully located in the aluminum plate was chosen. In such a situation, there is no mechanical mixing between the two materials, but frictional heating gives rise to a significant thermally activated interdiffusion at the copper/aluminum interface. This gives rise to the formation of defect-free joints where the bonding is achieved by a very thin intermetallic layer at the Cu/Al interface. Nanoscaled grains within this bonding layer were characterized using transmission electron microscopy (TEM). Two phases were identified, namely, Al2Cu and Al4Cu9 phases. The nucleation and growth of these two phases are discussed and compared to the standard reactive interdiffusion reactions between Cu and Al.