High temperature mechanical integrity of selective laser melted alloy 718 evaluated by slow strain rate tests
Dunyong Deng, Ru Lin Peng, Johan Moverare
Abstract
Strain rate dependent deformation behaviours of selective laser melted Alloy 718 (IN718) are systematically studied at 550 and 650 °C by slow strain rate testing, with a forged counterpart as a reference. Selective laser melted IN718 shows significant susceptibility to intergranular cavitation, resulting in ductility degradation with decreasing strain rate. Detailed fractography and cross section inspections are employed to identify the damage mechanisms. Creep rates are also estimated and compared with the conventional counterparts. The possible critical factors for the inferiority of time dependent damage resistance of selective laser melted IN718 are discussed.
Topics & Concepts
Materials scienceFractographyStrain rateDuctility (Earth science)LaserAlloyMetallurgyStrain (injury)CreepComposite materialDeformation (meteorology)MicrostructureOpticsPhysicsInternal medicineMedicineAdditive Manufacturing Materials and ProcessesNuclear Materials and PropertiesAdditive Manufacturing and 3D Printing Technologies