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Role of Superficial Defects and Machining Depth in Tensile Properties of Electron Beam Melting (EBM) Made Inconel 718

Xiaoyu Zhao, Amir Rashid, Annika Strondl, Christopher Hulme-Smith, Niclas Stenberg, Sasan Dadbakhsh

2021Journal of Materials Engineering and Performance17 citationsDOIOpen Access PDF

Abstract

Abstract Since there is no report on the influence of machining depth on electron beam melting (EBM) parts, this paper investigated the role of superficial defects and machining depth in the performance of EBM made Inconel 718 (IN718) samples. Therefore, as-built EBM samples were analyzed against the shallow-machined (i.e., only removal of outer surfaces) and deep-machined (i.e., deep surface removal into the material) parts. It was shown that both as-built and shallow-machined samples had a drastically lower yield strength (970 ± 50 MPa), ultimate tensile stress (1200 ± 40 MPa), and ductility (28 ± 2%) compared to the deep-machined samples. This was since premature failure occurred due to various superficial defects. The superficial defects appeared in two levels, as (1) notches and pores on the surface and (2) irregular pores and cracks within the subsurface. Since the latter occurred down to 2 mm underneath the surface, shallow machining only exposed the subsurface defects to outer surfaces. Thus, the shallow-machined parts achieved only 68% and 8% of UTS and elongation of the deep-machined parts, respectively. This low performance occurred to be comparable to the as-built parts, which failed prematurely due to the high fraction surface voids and notches as well as the subsurface defects.

Topics & Concepts

InconelMaterials scienceMachiningUltimate tensile strengthDuctility (Earth science)Composite materialMetallurgyCathode rayElectronAlloyCreepQuantum mechanicsPhysicsAdditive Manufacturing Materials and ProcessesAdvanced Machining and Optimization TechniquesManufacturing Process and Optimization