Abstract
This research focuses on thermal deformations of thermoplast during three-dimensional printing. A filament acrylonitrile butadiene styrene was used, and the main focus was put on warping. Twenty-seven cuboids divided in six categories by their length, height, surface area, color, nozzle temperature and bed temperature were printed by Fused Filament Fabrication 3D printer. The whole process was captured by a thermal camera and the movies were used to analyze the temperature distribution during printing. All printouts were measured and scanned with a 3D scanner in order to highlight any abbreviations from the original digital models. The obtained results were used to formulate some general conclusions on the influence of selected parameters on the warping process. Based on the outcomes of the study, a set of guidelines on how to minimalize warping was proposed.
Highlights
This study focuses on the fused filament fabrication (FFF) type of 3D printing, commonly known as fused deposition modeling (FDM), that uses thermopolymers
Various cuboids were printed under different conditions andand under various conditions
Various cuboids were printed under different conditions afterward, the accuracy of the printouts was verified, with special attention on the warpafterward, the accuracy of the printouts was verified, with special attention on the warping
Summary
Polymers, known to most as plastics, have become infamous for their environmental impact. Polymers have gained an important spot in one branch of engineering, 3D printing. This is a relatively new and fast-developing manufacturing technology. The history of 3D printing started in the 1980s [1], in recent years it has experienced rapid growth in market share, from USD 11.56 billion in 2019 to USD 13.78 billion in 2020 [2], and is becoming more and more popular every day. There is good reason for that, since this technology offers many advantages, making it ideal for certain tasks, the most glaring one being that three-dimensional printing is uniquely suited to the production of small numbers of geometrically complicated parts
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