0000000000206766

AUTHOR

Julien Zollinger

showing 3 related works from this author

Solidification microstructure during selective laser melting of Ni based superalloy: experiment and mesoscopic modelling

2019

International audience; A set of single track laser melting experiments was performed in a selective laser melting (SLM). The tracks were done on an Inconel 718 plate with various laser scan velocities at a constant laser power of 150 W. The geometries of the molten pool (MP), as well as the solidified dendrite structures, i.e., primary and secondary dendrite arm spacing (PDAS and SDAS), in the cross sections of the molten path were characterized to evaluate the effect of the laser scan velocity during SLM. Moreover, the local solidification thermal conditions (cooling rate R*, tip growth velocity V* and temperature gradient G*) at the MP bottom were deduced from the SDAS and the geometries…

Mesoscopic physicsMaterials science[SPI.FLUID]Engineering Sciences [physics]/Reactive fluid environment02 engineering and technology021001 nanoscience & nanotechnologyLaser01 natural sciences[SPI.MAT]Engineering Sciences [physics]/Materials010305 fluids & plasmaslaw.inventionSuperalloyTemperature gradientDendrite (crystal)law0103 physical sciencesLaser power scalingComposite materialSelective laser melting0210 nano-technologyInconelIOP Conference Series: Materials Science and Engineering
researchProduct

Mechanical properties and microstructural study of homogeneous and heterogeneous laser welds in α, β,and α + β titanium alloys

2018

International audience; Heterogeneous welding has been investigated for three different couples of titanium alloys: α/α + β, α/β,andα + β/β. Plates of 100 × 60 mm and 1.6 or 1.8 mm thick were welded with a Yb:YAG laser. Tensile tests show that the resistance of the heterogeneous welded specimens was generally controlled by those of the weakest material except for the α + β/β where the ultimate tensile strength was approximately equal to the average value of both materials. In every case, the elongation of the welded sample was found to be smaller than that of the base metals. The rupture generally took place outside the weld metal and was found to be most of the time located in the alloy ha…

Equiaxed crystals0209 industrial biotechnologyThin layersMaterials scienceMechanical EngineeringAlloyMetals and AlloysTitanium alloy02 engineering and technologyWelding[CHIM.MATE]Chemical Sciences/Material chemistryengineering.materialMicrostructure020501 mining & metallurgylaw.invention020901 industrial engineering & automation0205 materials engineeringMechanics of MaterialslawUltimate tensile strengthengineeringComposite materialElectron backscatter diffraction
researchProduct

Microstructure and property of titanium heterogeneous laser welding

2015

International audience; Dissimilar welding has been investigated for three different couples of titanium alloys: α/α+β, α/β and α+ββp. Plates of 100 x 60 x 1.6 or 1.8 mm were welded with a Yb: YAG laser. Tensile tests show that the properties of the dissimilar welded specimens were generally controlled by Those of the weakest material except for the α+β/β where the ultimate tensile strength was approximately equal to the average value of both materials. In every case, the welding sample elongation was found to be smaller than that of the base metals. The rupture took place away from the bead and was found to be always located in the alloy having the lowest mechanical properties. Nevertheles…

Heat-affected zoneMaterials science0211 other engineering and technologieschemistry.chemical_element02 engineering and technologyWelding01 natural scienceslaw.inventionlaw0103 physical sciencesUltimate tensile strengthComposite materialTensile testMicrostructure021102 mining & metallurgyTensile testing010302 applied physicsMetallurgyLaser beam weldingTitanium alloy[CHIM.MATE]Chemical Sciences/Material chemistryMicrostructurechemistry[ CHIM.MATE ] Chemical Sciences/Material chemistryTitaniumLaser heterogeneous welding
researchProduct