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The FDM technique in processes of prototyping spare parts for servicing and repairing agricultural machines: a general outline

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The aim of this research was to determine the possibility of applying alternative techniques for the production of prototypes for spare parts in agriculture and to determine the possible directions of development of their applications in the engineering industry. Then, to determine which spare parts could be produced using the FDM technique, comparisons of the most important parameters of spare parts produced independently (using the FDM technique) and obtained from producers (produced using traditional methods in professional factories) were made. A number of factors were analysed, from technical parameters such as machine type, processed material and its consumption including required as support structures, to economic issues such as manufacturing or purchase delivery total time and cost. The FDM technique has proven itself in many ways in the production of spare parts for agricultural machinery.
Rocznik
Strony
145--155
Opis fizyczny
Bibliogr. 22 poz., fot., rys., tab.
Twórcy
  • Faculty of Mechanical Engineering, Poznan University of Technology Piotrowo 3 STR, 60-965 Poznan, POLAND
  • Faculty of Social Studies, University of Security in Poznań Elizy Orzeszkowej 1 STR, 60-778 Poznan, POLAND
  • Faculty of Mechanical Engineering, Poznan University of Technology Piotrowo 3 STR, 60-965 Poznan, POLAND
Bibliografia
  • [1] Prajapati R.A., Dave K.H. and Raval K.H. (2021): Effect of fiber volume fraction on the impact strength of fiber reinforced polymer composites made by FDM process.– Materials Today: Proceedings, vol.1, Paper No.234158336. DOI:10.1016/J.MATPR.2020.12.262.
  • [2] Patalas-Maliszewska J., Topczak M. and Kłos S. (2020): The level of the additive manufacturing technology use in polish metal and automotive manufacturing enterprises.– Applied Sciences, vol.10, No.3, p.20. doi: https://doi.org/10.3390/app10030735.
  • [3] Kosmol J., Kopytyński K., Lehrich K. and Dyrbuś G. (2008): Testing of the quality of production by means of rapid prototyping the FDM.– Scientific works of the Department of Machine Design. vol.3, pp.165-176. doi: bwmeta1.element.baztech-article-BSL1-0008-0024.
  • [4] Łukaszewski K., Wichniarek R. and Górski F. (2020): Determination of the elasticity modulus of additively manufactured wrist hand orthoses.– Materials, vol.13, No.19, p.18. doi: org/10.3390/ma13194379.
  • [5] Reza Khosravani M. and Reinicke T. (2020): Effects of raster layup and printing speed on strength of 3D-printed structural components.– Procedia Structural Integrity, vol.28, pp.720-725. doi: https://doi.org/10.1016/j.prostr.2020.10.083.
  • [6] Markowski T., Budzik G., Kozik B. and Sobolewski B. (2014): Analysis of the possibility of producing gears with small modules using the FDM technology.– Mechanic, vol.02, pp.173-179. doi: 10.17814/mechanik.2015.12.582.
  • [7] Caban J., Szala M., Kęsik J. and Czuba Ł. (2017): The use of 3D printing in the automotive applications.– Buses: technology, exploitation, transport systems, Pub. Spatium, vol.6, pp.573-579. doi: bwmeta1.element.baztech0758c3a5-c61b-43f5-8575-a37b79ee8c0a.
  • [8] Coldwind G. and Jurczyk M. (2016): Practical Reverse Engineering. Methods, Techniques and Tools.– PWN Scientific Publisher. Warszawa.
  • [9] Wyleżoł M. (2006): Reverse engineering in design improvement. Engineering Modeling.– Department of Fundamentals of Machine Design, Silesian University of Technology.Gliwice, vol.1, No.32, pp.485-490. doi: bwmeta1.element.baztech-article-BSL9-0036-0069.
  • [10] Olejarczyk M. and Gruber K. (2015): The Influence of Temperatures Processing on the Mechanical Properties of Models in the FDM Technology.– Ed. J.Szrek: Interdisciplinarity of Scientific Research 2015.
  • [11] Mazurkiewicz A. (2017): Analysis of the print quality of an ABS thermoplastic element made in the FDM technology.– Buses: technology, exploitation, transport systems, Pub. Spatium, vol.18, No.6, pp.956-960. doibwmeta1.element.baztech-4e03fa85-85fa-4022-bf80-17386219bff7.
  • [12] Mydłowska K. and Tartakowski Z. (2015): Mechanical properties of products manufactured from polyamide with the FDM technology.– Plastics processing. Pub. Lukasiewicz Research Network - Institute for Engineering of Polymer Materials, vol.21, No.6, pp.467-472. doi: bwmeta1.element.baztech-e8ce0843-37c2-4311-bebcfa9dfac70774.
  • [13] Parafiniak M. and Żach P. (2016): Assessment of the peculiarities of materials used in the FDM technology.– Mechanic, vol.12. doi: dx.doi.org/10.17814/mechanik.2016.12.552.
  • [14] Rybacki P., Rzeźnik C. and Buchwald T. (2013): Structure of planned technical services of agricultural tractors based on comparative studies.– Journal of Research and Applications in Agricultural Engineering. vol.58, No.2, pp.141-144. doi: bwmeta1.element.baztech-0b3bf2d6-2f27-4192-85bb-6bae86780c19.
  • [15] Wilde J. (2016): Prospects for the development of Polish beekeeping in the era of technological and health threats.– VII Lublin Beekeeping Conference & II International Beekeeping Symposium. Beekeeping in the industrial reality, Olsztyn.
  • [16] Hamrol A. (2017): Quality management and engineering. PWN Scientific Publisher. Warszawa.
  • [17] Hamrol A., Ciszak O., Legutko S. and Jurczyk M. (2018): Advances in Manufacturing.– Switzerland: Springer, Lecture Notes in Mechanical Engineering.
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Uwagi
PL
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0f2d2129-b29c-4b90-9de5-333bfb5d5da6
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