Drone in 3D printing
Dron en impresión 3D
Atribución - No Comercial – Compartir igual (by-nc-sa): permite a los usuarios distribuir, remezclar, retocar, y crear a partir de la obra original de modo no comercial, siempre y cuando se dé reconocimiento al autor y se licencien o circulen sus nuevas creaciones u obras derivadas bajo las mismas condiciones de esta licencia.
Show authors biography
Investigated the potential of 3D printing to reduce the cost of drones. Enabled the potential benefits of 3D printing in the structural development, design and creation of exoskeletons for drones to be evaluated. 3D printing could significantly reduce drone development and production costs, which could catalyze wider adoption of these devices across a variety of industries and applications. 3D printing has the potential to revolutionize the drone industry, but challenges such as strength, quality and regulation must be addressed before this technology is widely accepted.
Article visits 231 | PDF visits 134
Downloads
Bind, O. A. D. (2023). a drawing of designing and developing drones with the help of 3D printing at low cost - Creador de imágenes. https://www.bing.com/images/create/a-drawing-of-designing-and-developing-drones-with-/645007e39cd14ff19b2e546ae7a683c5?id=j9IL3BoEWbvvhvLip%2B7UOA%3D%3D&view=detailv2&idpp=genimg&idpclose=1&form=SYDBIC
Briceño Mero, C. M., & Flores Suarez, C. R. (2022). Diseño e implementación de un prototipo nanosatélite tipo CANSAT con posicionamiento GPS para experimentos en caída libre. http://dspace.ups.edu.ec/handle/123456789/22347
Bueno, J. (2017, April 29). Un robot, impresión 3D y drones: la construcción del futuro ya está aquí | Vivienda | EL MUNDO. https://www.elmundo.es/economia/vivienda/2017/04/29/590373ec268e3e455d8b45a2.html
Meenakshipriya, B., Raja, N. B., Faroshkhan, S., & Matris, S. (2021). Design and fabrication of 3D printed QuadDrone for altitude measurement. International Journal of Aerospace System Science and Engineering, 1(1), 85. https://doi.org/10.1504/IJASSE.2021.114142
Mirzaeinia, A., & Hassanalian, M. (2019). Minimum-cost drone-nest matching through the Kuhn-Munkres algorithm in smart cities: Energy management and efficiency enhancement. Aerospace, 6(11). https://doi.org/10.3390/aerospace6110125
Palmer, M., & Laliberte, J. (2023). Effects of non-planar slicing techniques and carbon fibre material additives on the mechanical properties of 3D-printed drone propellers. Drone Systems and Applications, 11, 1–11. https://doi.org/10.1139/DSA-2023-0007/SUPPL_FILE/DSA-2023-0007SUPPLB.MP4
Ruipérez, P. (2015). Diseño y fabricación de un Dron. 119. https://riunet.upv.es/bitstream/handle/10251/73170/RUIPÉREZ - Diseño y fabricación de un dron mediante impresión 3D.pdf?sequence=5
Sanz, P., Jesús, A., & Melero, G. (2023). Diseño y construcción de un pequeño vehículo no tripulado mediante impresión 3D FDM. https://uvadoc.uva.es/handle/10324/60467
Singh, O. P., Ahmed, M., & Abhilash, Mjrp. (2015). Modern 3D printing technologies: Future trends and developments. Recent Patents on Engineering, 9(2), 91–103.
Vorobioff, J., Boggio, N., Gutierrez, M., Checozzi, F., & Rinaldi, C. (2020). Drone Design for Monitoring Volcanic Areas. Tecnura, 24(66), 27–35.
Wiltgen, P. D. F. (2021). Manufatura aditiva em metais – leve, forte e inovador. Revista de engenharia e tecnologiA, 13(2). https://revistas.uepg.br/index.php/ret/article/view/18118
Yap, Y. L., Toh, W., Giam, A., Yong, F. R., Chan, K. I., Tay, J. W. S., Teong, S. S., Lin, R., & Ng, T. Y. (2023). Topology optimization and 3D printing of micro-drone: Numerical design with experimental testing. International Journal of Mechanical Sciences, 237, 107771. https://doi.org/10.1016/J.IJMECSCI.2022.107771
Yoza, M. M. B., Zuñiga, K. M., Zambrano, S. M. Z., & Pionce, W. R. C. (2021). El uso de los drones en el ámbito profesional. UNESUM - Ciencias. Revista Científica Multidisciplinaria, 5(4), 75–82. https://doi.org/10.47230/unesum-ciencias.v5.n6.2021.516
