3D Printing for Chemical Process Laboratories I: Materials and Connection Principles |
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| Authors: | Marius Gerrit Gelhausen Tim Feuerbach Ansgar Schubert David William Agar |
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| Affiliation: | 1. TU Dortmund, Department of Biochemical and Chemical Engineering, Laboratory of Chemical Reaction Engineering, Dortmund, Germany;2. TU Dortmund, Department of Biochemical and Chemical Engineering, Laboratory of Solids Process, Dortmund, Germany |
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| Abstract: | The fabrication of milliliter‐scale test structures for chemical process laboratories with a low‐cost 3D printer operating according to the principle of fused filament fabrication is evaluated. Different polymers such as polypropylene and poly(vinylidene fluoride) were used and fabrication guidelines are provided. Furthermore, reversible and irreversible concepts for connecting 3D‐printed parts to peripherals or to other additively manufactured parts are described. After fabrication, the structures were tested for gas tightness, which was limited without subsequent finishing due to the layer‐wise fabrication process. However, gas tightness up to 600 kPa was attained by using tools like sealing tape. Finally, the developed concepts were extended to permit the insertion of thermoelements or other metallic probes. |
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| Keywords: | Chemical reactors Connection concepts Fused filament fabrication Gas tightness 3D printing |
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