Brandau, BenediktBenediktBrandauBrückner, FrankFrankBrücknerKaplan, Alexander F.H.Alexander F.H.Kaplan2023-09-132023-09-132024https://publica.fraunhofer.de/handle/publica/45064010.1016/j.optlastec.2023.109780WOS:001051885900001This study presents an approach for in-situ monitoring of laser powder bed fusion. Using standard laser optics, coaxial high-resolution multispectral images of powder beds are acquired in a pre-objective scanning configuration. A continuous overview image of the entire 114 × 114 mm powder bed can be generated, detecting objects down to 20 µm in diameter with a maximum offset of 22-49 µm. Multispectral information is obtained by capturing images at 6 different wavelengths from 405 nm to 850 nm. This allows in-line determination of the absorbance of the powder bed with a maximum deviation of 2.5% compared to the absorbance spectra of established methods. For the qualification of this method, ray tracing simulations on powder surfaces and tests with 20 different powders have been carried out. These included different particle sizes, aged and oxidized powders.enMetal powderLaser powder bed fusionSpectroscopic measurementMultispectral imagingCorrection methodScanning methodLaser material processingjournal article