Functionally Graded Additive Manufacturing of Thin-Walled 316L Stainless Steel-Inconel 625 by Direct Laser Metal Deposi-tion Process: Characterization and Evaluation

Abstract

Direct Laser Metal Deposition (DLMD) is a state-of-the-art manufacturing technology that is used to fabricate 316L stainless steel/Inconel 625 functionally graded material (FGMs) in this research. For the practical application of these materials in the industry, the effects of process parameters on the geometric characteristics and surface roughness require more investigation. This FGM was additively manufactured in five layers by changing the 316L stainless steel/Inconel 625 ratio in each layer. The effects of laser power on the geometric characteristics, height stability and surface roughness were investigated. The microstructural analysis and and microhardness profiles were studied. The results show that despite the high solidification rate, the segregation of alloying el-ements into dendritic areas occurred. It was also found that increasing the laser power will increase the height, width, height stability and surface roughness of the gradient walls. The maximum width and height of the deposited layers were 1.615 and 6.42 mm, respectively at the highest laser power (280 W). At the laser power of 220 W, the least surface roughness (Ra = 105 µm) and the best height stability (0.461 mm) will be obtained. The microhardness values will differ in various sec-tions of the gradient walls in a range of 225-277 HV.