Abstract
The additive manufacture is a fabrication process that has taken huge steps in the last decade, even though the first researches and prototypes are around since almost forty years ago. In this article, a design method for a Parallel Kinematics Robot for Additive Manufacturing Applications is proposed. A numerical model is obtained from the kinematics of the robot for which the design, construction and assembly are planned using recycled materials and equipment. The control of the robot is done using open source software, allowing the planning of trajectories in the Cartesian space on a maximum designed cylindrical workspace of 300mm in diameter by 300mm high. At the end of the work the robot was identified, the kinematic model was validated and considerations for future works were given.
Publisher
Peertechz Publications Private Limited
Reference26 articles.
1. 1. Kenton W (2021) Manufacturing. Investopedia. Link: https://bit.ly/3x6u54W
2. 2. Sarcar M, Rao K, Narayan K (2008) Computer aided design and manufacturing. PHI Learning. Link: https://bit.ly/3iv3jz8
3. 3. Thomas D, Gilbert S (2014) Costs and cost effectiveness of additive manufacturing. Link: https://bit.ly/3wkkcRn
4. 4. Marinescu ID, Rowe B, Ling Y, Wobker HG (2015) Chapter 3 - abrasive processes. In ID Marinescu, TK Doi, E Uhlmann (Eds.), Handbook of ceramics grinding and polishing. William Andrew Publishing 67-132. Link: https://bit.ly/353gsHW
5. 5. Borunda L, Rodriguez Ladron de Guevara M, Pugliese G, Claramunt R, Mun˜oz M, et al. (2020) Componentes optimizados de fabricaci'on de aditivos = optimized additive manufacturing building components. Anales de Edificacion 6. Link: https://bit.ly/34Z4vTw
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