Residual Stress Reduction Technology in Heterogeneous Metal Additive Manufacturing

Abstract: Metal additive manufacturing (AM) is a low-cost, high-efficiency functional mold manufacturing technology. However, when the functional section of the mold or part is not a partial area, and large-area additive processing of high-hardness metal is required, cracks occur frequently in AM and substrate materials owing to thermal stress and the accumulation of residual stresses. Hence, research on residual stress reduction technologies is required. In this study, we investigated the effect of reducing residual st… Show more

“…The influence of different AM variables is investigated to try to reduce both residual stresses and part warpage [14][15][16][17][18][19]. In this sense, Mukherjee et al [14] illustrated that the part warpage is dependent on the scanning strategy, the preheating and cooling conditions, the material properties and the printing parameters.…”

Mitigation of residual stresses and microstructure homogenization in directed energy deposition processes

“…The influence of different AM variables is investigated to try to reduce both residual stresses and part warpage [14][15][16][17][18][19]. In this sense, Mukherjee et al [14] illustrated that the part warpage is dependent on the scanning strategy, the preheating and cooling conditions, the material properties and the printing parameters.…”

Mitigation of residual stresses and microstructure homogenization in directed energy deposition processes

Effect of Build Height on Temperature Evolution and Thermally Induced Residual Stresses in Plasma Arc Additively Manufactured Stainless Steel

Review of the Formation Mechanisms and Control Methods of Geometrical Defects in Laser Deposition Manufacturing