Effect of stress relaxation on distortion in additive manufacturing process modeling

• Published in: Additive manufacturing Vol. 12; pp. 51 - 59
• Main Authors: Denlinger, Erik R., Michaleris, Pan
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.10.2016
• Subjects: Distortion; FEM; LDED; Residual stress; Distortion; LDED; Residual stress; FEM
• ISSN: 2214-8604; 2214-7810
• DOI: 10.1016/j.addma.2016.06.011

A method for modeling the effect of stress relaxation at high temperatures during laser direct energy deposition processes is experimentally validated for Ti-6Al-4V samples subject to different inter-layer dwell times. The predicted mechanical responses are compared to those of Inconel® 625 samples, which experience no allotropic phase transformation, deposited under identical process conditions. The thermal response of workpieces in additive manufacturing is known to be strongly dependent on dwell time. In this work the dwell times used vary from 0 to 40s. Based on past research on ferretic steels and the additive manufacturing of titanium alloys it is assumed that the effect of transformation strain in Ti-6Al-4V acts to oppose all other strain components, effectively eliminating all residual stress at temperatures above 690°C. The model predicts that Inconel® 625 exhibits increasing distortion with decreasing dwell times but that Ti-6Al-4V displays the opposite behavior, with distortion dramatically decreasing with lowering dwell time. These predictions are accurate when compared with experimental in situ and post-process measurements.