@inproceedings{JunkB{\"a}r2023, author = {Junk, Stefan and B{\"a}r, Felix}, title = {Design guidelines for Additive Manufacturing using Masked Stereolithography mSLA}, booktitle = {Procedia CIRP}, volume = {119}, issn = {2212-8271}, doi = {10.1016/j.procir.2023.01.022}, institution = {Fakult{\"a}t Wirtschaft (W)}, pages = {1122 -- 1127}, year = {2023}, abstract = {Additive manufacturing enables the production of lightweight and resilient components with extensive design freedom. In the low-cost sector, material extrusion (e.g. Fused Deposition Modeling - FDM) has been the main method used to date. Thus, robust 3D printers and inexpensive 3D materials (polymer filaments) can be used. However, the printing times for FDM are very long and the quality of the dimensions and surfaces is limited. Recently, new processes from the field of Vat polymerization have entered the market. For example, masked stereolithography (mSLA) offers a significant improvement in component quality and build speed through the use of resins and large-area curing at still reasonable costs. Currently, there is only limited knowledge available on the optimal design of components using this young process. In this contribution, design guidelines are developed to determine the possibilities and limitations of mSLA from a design point of view. For this purpose, a number of test geometries are designed and investigated to obtain systematic insights into important design features, such as wall thickness, grooves and holes. In addition, typical problems in additive manufacturing, such as the design of overhangs and fits or the hollowing of components, are investigated. The evaluation of practical 3D printing tests thus provides important parameters that can be transferred to design guidelines of components for additive manufacturing using mSLA.}, language = {en} }