@misc{froend_experimental_investigation_2018, author={Froend, M., Bock, F., Ventzke, V., Riekehr, S., Kashaev, N., Klusemann, B., Enz, J.}, title={Experimental Investigation of Temperature Distribution during Wire-Based Laser Metal Deposition of the Al-Mg Alloy 5087}, year={2018}, howpublished = {journal article}, doi = {https://doi.org/10.4028/www.scientific.net/MSF.941.988}, abstract = {Wire-based laser metal deposition enables to manufacture large-scale components with deposition rates significant higher compared to powder-based laser additive manufacturing techniques, which are currently working with deposition rates of only a few hundred gram per hour. However, the wire-based approach requires a significant amount of laser power in the range of several kilowatts instead of only a few hundred watts for powder-based processes. This excessive heat input during laser metal deposition can lead to process instabilities such as a non-uniform material deposition and to a limited processability, respectively. Although, numerous possibilities to monitor temperature evolution during processing exist, there is still a lack of knowledge regarding the relationship between temperature and geometric shape of the deposited structure. Due to changing cooling conditions with increasing distance to the substrate material, producing a wall-like structure results in varying heights of the individual tracks. This presents challenges for the deposition of high wall-like structures and limits the use of constant process parameters. In the present study, the temperature evolution during laser metal deposition of AA5087 using constant process parameters is investigated and a scheme for process parameter adaptions in order to reduce residual stress induced componential distortions is suggested.}, note = {Online available at: \url{https://doi.org/10.4028/www.scientific.net/MSF.941.988} (DOI). Froend, M.; Bock, F.; Ventzke, V.; Riekehr, S.; Kashaev, N.; Klusemann, B.; Enz, J.: Experimental Investigation of Temperature Distribution during Wire-Based Laser Metal Deposition of the Al-Mg Alloy 5087. Materials Science Forum, THERMEC 2018. 2018. vol. 941, 988-994. DOI: 10.4028/www.scientific.net/MSF.941.988}}