Publications with the keyword "hardness"

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L. Spadaro, S. Hereñú, R. Strubbia, G. G. Rosas, R. Bolmaro, and C. R. González
Effects of laser shock processing and shot peening on 253 MA austenitic stainless steel and their consequences on fatigue properties
Optics and Laser Technology (cited By 1), 122, 2020
austenitic stainless steel coatings dislocations (crystals) hardness microstructure residual stresses shot peening compressive residual stress dislocation microstructures fatigue performance laser shock peening laser shock processing low cycle fatigue life low cycle fatigues near-surface microstructures fatigue of materials
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F. Cruz-Gandarilla, R. Bolmaro, H. Mendoza-León, A. Salcedo-Garrido, and J. Cabañas-Moreno
Study of recovery and first recrystallisation kinetics in CGO Fe3%Si steels using misorientation-derived parameters (EBSD)
Journal of Microscopy (cited By 1), 275(3), 133-148, 2019
iron silicon steel article chemical composition crystal structure crystallization diffraction electron microscopy hardness heating histogram kinetics low temperature priority journal
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J. Muñoz, O. Cobos, R. M'Doihoma, M. Avalos, and R. Bolmaro
Inducing heterogeneity in an austenitic stainless steel by equal channel angular sheet extrusion (ECASE)
Journal of Materials Research and Technology (cited By 0), 8(2), 2473-2479, 2019
austenitic transformations extrusion hardness martensite martensitic transformations stainless steel textures deformation-induced martensite (dim) equal channel angular grain size material heterogeneity micro-structure evolutions sheet extrusion sheet thickness strength austenitic stainless steel
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R. Strubbia, S. Hereñú, G. Gómez-Rosas, V. Fuster, and C. R. González
Fatigue Life Improvement in Lean Duplex Stainless Steel by Peening Treatments
Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science (cited By 1), 50(12), 5614-5626, 2019
austenite chemical analysis duplex stainless steel hardness residual stresses shot peening strain hardening surface roughness twinning compressive residual stress dislocation microstructures fatigue life improvement laser shock peening lean duplex stainless steel low cycle fatigue life quantitative phase analysis surface chemical composition fatigue of materials
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F. Roudet, D. Chicot, X. Decoopman, A. Iost, J. Bürgi, J. Garcia-Molleja, L. Nosei, and J. Feugeas
Modeling of very thin aluminum nitride film mechanical properties from nanoindentation measurements
Thin Solid Films (cited By 4), 594, 129-137, 2015
aluminum aluminum nitride elastic moduli film thickness hardness mechanical properties models nanoindentation nitrides aluminum nitride films elastic modulus determination hardness elastic modulus indentation measurements indentation testing nano-indentation measurements the standard model weight functions thin films
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F. Roudet, D. Chicot, X. Decoopman, A. Iost, J. Burgi, J. G. Molleja, and J. Feugeas
Mechanical properties by indentation of aluminium nitride nanometric thin film [Proprietes mecaniques par indentation d'un film mince nanometrique de nitrure d'aluminium]
Materiaux et Techniques (cited By 0), 103(6), 2015
aluminum aluminum coatings aluminum nitride analytical models elastic moduli film thickness hardness mechanical properties nanoindentation nitrides substrates aluminum nitride films direct measurement elastic modulus determination fitting parameters hardness elastic modulus hardness determination indentation load nanometric thin films thin films
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X. Decoopman, L. Nosei, J. Lesage, D. Chicot, and J. Feugeas
Role of plastic deformation on the efficiency of a nitriding treatment: Modelling of the hardness-depth profile
International Journal of Microstructure and Materials Properties (cited By 3), 8(3), 155-170, 2013
aluminum nitride diffusion efficiency nitriding plastic deformation stainless steel strain hardening strain rate deformation rates dislocation densities hardening process hardness depth profiles indentation hardness nitriding treatment simulation modeling surface hardness hardness
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J. Lesage, D. Chicot, L. Nosei, and J. Feugeas
Prediction of hardness-depth profile from indentations at surface of materials
Surface Engineering (cited By 6), 25(2), 93-96, 2009
argon hardening hardness indentation nitriding plasma applications stainless steel thin films calculation process coated systems depth profiles duplex process hardened materials hardness profiles high energies ion nitriding mechanical parts micro-indentation plasma beams short durations step by steps virtual layers surfaces
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O. Lambri, J. Cano, J. Pérez-Landazábal, V. Recarte, and A. Peñaloza
Copper-lithium alloy produced by powder metallurgy procedures and its age-hardening response
Zeitschrift fuer Metallkunde/Materials Research and Advanced Techniques (cited By 0), 96(8), 933-939, 2005
brass brinell hardness testing elastic moduli electric conductivity hardness lithium powder metallurgy problem solving sintering ageing treatment cu18 at. hardeneable alloy solidus line copper alloys
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J. Feugeas, G. Grigioni, G. Sánchez, and A. R. D. Costa
Wear behaviour of steel and titanium treated by pulsed ion implantation
Surface Engineering (cited By 11), 14(1), 62-66, 1998
friction hardness ion beams ion bombardment ion implantation nitriding nitrogen stainless steel tempering titanium tribology wear of materials vickers microhardness surface treatment
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O. Lambri, J. Pérez-Landazábal, M. Nó, and J. S. Juan
Study of the δ′ reversion process in 8090 alloys
Scripta Materialia (cited By 5), 37(6), 851-859, 1997
aging of materials electric variables measurement hardness hardness testing mechanical properties metallographic microstructure quenching reaction kinetics x ray diffraction high temperature treatment reversion process solid solution treatment thermoelectric power vickers microhardness test aluminum alloys
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