| Summary: | In powder bed fusion (PBF), a laser based energy source selectively fuses polymer powder particles in a layer-by-layer process building up a three-dimensional structure. For powder bed fusion of polymers the knowledge about which material properties are important for the process and the product quality is insufficient. This causes significant difficulties in developing new materials. To address this problem, it is necessary to establish a clear link between the material properties, process parameters and the resulting component quality. This link can be achieved by performing a combination of experimental investigations, numerical simulations and analytical considerations to develop dimensionless characteristic numbers that are able to describe the process. Therefore, this paper presents material properties and monolayer printing experiments for polyamide 12. The experimental results are compared with numerical simulations based on the material and process data. Based on these results, we present a method of how to calculate the dimensionless energy input by combining the surface energy density with material properties and measured thickness of the monolayer samples. Furthermore, when considering the fusion time, numerical simulations show good correlation with an analytical model
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