Abstract
This paper presents the results of a study of evaluating the influence of path generation strategy on tensile properties of samples made by additive manufacturing technology FDM (Fused Deposition Modeling). Several scientific studies were focused on the influence of path generation strategy on mechanical properties of deposited material. ABS and PLA are the most investigated materials used in FDM. This paper is aimed to determine the influence of selected path generation strategies on tensile strength of parts fabricated with ULTEM 9085 thermoplastic. The results obtained in experiments confirmed that proposed path generation strategy allowed to increase tensile strength by 25% compared to a situation when the samples were fabricated with default path generation setting.
References
2. Ivanova O., Williams C., Campbell T.: Additive manufacturing (AM) and nano-technology: promises and challenges, Rapid Prototyping J., 19 (2013) 353-364.
3. Gibson I., Rosen D. W., Stucker B.: Additive Manufacturing Technologies: Rapid Prototyping to Direct Digital Manufacturing, Springer, Heidelberg 2010.
4. C. Onwubolu G., Rayegani F.: Characterization and optimization of mechanical properties of abs parts manufactured by the fused deposition modelling process, Int. J. Manuf. Eng., vol. 2014, Article ID 598531.
5. Lipina J., Krys V., Sedlák J.: Shaped glued connection of two parts made by rapid prototyping technology, Appl. Mech. Mat., 2014, 541, 978-3-03835-111-5.
6. Sood A.K, Ohdar R.K., Mahapatra S.S.: Parametric appraisal of mechanical prop-erty of fused deposition modelling processed parts, Materials and Design, 2010, 287, 0264-1275.
7. Gajdoš I., Slota J., Spišák E., Jachowicz T., Tor-Swiatek A.: Structure and tensile properties evaluation of samples produced by Fused Deposition Modeling, Open Engeneering 2016; 6:86-89, DOI 10.1515/eng-2016-0011.