Download This PaperFatigue Analysis of Selective Laser Melting Inconel 718 and the Mechanism of Ductile-Brittle Continuous Alternating Steps During Fatigue Process
25 Pages Posted: 16 Nov 2023
Abstract
In this paper, Inconel 718 powber fabricated by selective laser melting (SLM) were studied to explore the mechanical characteristics and microstructures. The results of microstructure show that the material exhibits the columnar , honeycomb and mixed crystal structures. The microhardness is very uniform, with a average value of 317 HV. Tensile test shows the ultimate tensile strength of 785Mpa, elongation of 4.93%, which is high stress brittle fracture.The fatigue strength of 180MPa was obtained from the fatigue test. the fatigue life was sensitive to the effect of stress. In the SEM observation, small crack propagation was found in the fracture, and a large number of step-like fracture characteristics of repeated transformation of toughness and brittleness were found. The mechanism analysis of the step-like ductile-brittle fracture is carried out, which is divided into four stages. Mathematically analyzing the tough-brittle fracture of the step type, where the crack is subjected to both the stress field around the pore and the stress field at the crack tip on the way to extension, a stress field model for crack propagation around the pore and a fracture toughness formula for transverse and longitudinal propagation of tough-brittle steps applicable to this paper are proposed.
Keywords: Laser selective melting, Inconel 718, Fatigue, Tough-brittle step, Stress field
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