Analysis Of Parameter Impact On 3d Printed Experimental Samples For Tensile Testing
2019
Аутори
Milošević, MilošMilovanović, Aleksa
Mladenović, Goran
Kolesar, Svetozar
Pandžić, Adi
Travica, Milan
Mitrović, Nenad
Конференцијски прилог (Објављена верзија)
,
Innovation Center of Faculty of Mechanical Engineering
Метаподаци
Приказ свих података о документуАпстракт
One of the current problems in practice of preparing functional parts, prototypes and constructions is insufficient knowledge of 30 printing parameters for various advanced materials, which often results in failure to obtain required 30 prints. Users of 30 printers and distributors alike are at high risk that the results of their
30 printing may fail due to the use of advanced materials that are not sufficiently tested. Chosen 30 printing technology is FDM (Fused Deposition Modeling), a commercially available and widespread additive manufacturing technology. Crucial impact on mechanical properties and durability of 3D printed FDM parts are chosen parameters for printing. The input of parameters is done using adequate slicer software, which prepares the G-eode for stepper motors and heaters-who runs the whole 30 printing process on the machine. Previous studies show that printing parameters such as layer height, print speed, infi/1 pattern and percentage, print orien...tation and temperature have a crucial impact on mechanical properties of printed parts. This technology still shows improvements, mostly in the field of new materials. Every breakthrough in the material field requires thorough testing, in order to acquire mechanical properties and determine material behaviour in exploitation.
In order to extend the application of production of functional parts and prototypes obtained using additive manufacturing technologies, overviewing exploitation behaviour of conventional and advanced materials due to different conditions of 30 printing, the 30 printing parameters have been varied in order to attain its influence on mechanical properties of experimental samples, that are to be used in tensile testing. This research shows that prime mechanical properties, such as tensile strength, deformation at break, Young's modulus and toughness, may vary up to 30% in their value according to chosen printing parameters.
Кључне речи:
3D Printing / FDM / Parameter impact / Sample / Tensile testingИзвор:
3rd International Conference of Experimental and Numerical Investigations and New Technologies – CNN TECH 2019, Zlatibor, July 04-06., 2019, 22-22Издавач:
- Innovation Center of Faculty of Mechanical Engineering
Финансирање / пројекти:
- Министарство науке, технолошког развоја и иновација Републике Србије, институционално финансирање - 200105 (Универзитет у Београду, Машински факултет) (RS-MESTD-inst-2020-200105)
Колекције
Институција/група
Mašinski fakultetTY - CONF AU - Milošević, Miloš AU - Milovanović, Aleksa AU - Mladenović, Goran AU - Kolesar, Svetozar AU - Pandžić, Adi AU - Travica, Milan AU - Mitrović, Nenad PY - 2019 UR - https://machinery.mas.bg.ac.rs/handle/123456789/6935 AB - One of the current problems in practice of preparing functional parts, prototypes and constructions is insufficient knowledge of 30 printing parameters for various advanced materials, which often results in failure to obtain required 30 prints. Users of 30 printers and distributors alike are at high risk that the results of their 30 printing may fail due to the use of advanced materials that are not sufficiently tested. Chosen 30 printing technology is FDM (Fused Deposition Modeling), a commercially available and widespread additive manufacturing technology. Crucial impact on mechanical properties and durability of 3D printed FDM parts are chosen parameters for printing. The input of parameters is done using adequate slicer software, which prepares the G-eode for stepper motors and heaters-who runs the whole 30 printing process on the machine. Previous studies show that printing parameters such as layer height, print speed, infi/1 pattern and percentage, print orientation and temperature have a crucial impact on mechanical properties of printed parts. This technology still shows improvements, mostly in the field of new materials. Every breakthrough in the material field requires thorough testing, in order to acquire mechanical properties and determine material behaviour in exploitation. In order to extend the application of production of functional parts and prototypes obtained using additive manufacturing technologies, overviewing exploitation behaviour of conventional and advanced materials due to different conditions of 30 printing, the 30 printing parameters have been varied in order to attain its influence on mechanical properties of experimental samples, that are to be used in tensile testing. This research shows that prime mechanical properties, such as tensile strength, deformation at break, Young's modulus and toughness, may vary up to 30% in their value according to chosen printing parameters. PB - Innovation Center of Faculty of Mechanical Engineering C3 - 3rd International Conference of Experimental and Numerical Investigations and New Technologies – CNN TECH 2019, Zlatibor, July 04-06. T1 - Analysis Of Parameter Impact On 3d Printed Experimental Samples For Tensile Testing EP - 22 SP - 22 UR - https://hdl.handle.net/21.15107/rcub_machinery_6935 ER -
@conference{ author = "Milošević, Miloš and Milovanović, Aleksa and Mladenović, Goran and Kolesar, Svetozar and Pandžić, Adi and Travica, Milan and Mitrović, Nenad", year = "2019", abstract = "One of the current problems in practice of preparing functional parts, prototypes and constructions is insufficient knowledge of 30 printing parameters for various advanced materials, which often results in failure to obtain required 30 prints. Users of 30 printers and distributors alike are at high risk that the results of their 30 printing may fail due to the use of advanced materials that are not sufficiently tested. Chosen 30 printing technology is FDM (Fused Deposition Modeling), a commercially available and widespread additive manufacturing technology. Crucial impact on mechanical properties and durability of 3D printed FDM parts are chosen parameters for printing. The input of parameters is done using adequate slicer software, which prepares the G-eode for stepper motors and heaters-who runs the whole 30 printing process on the machine. Previous studies show that printing parameters such as layer height, print speed, infi/1 pattern and percentage, print orientation and temperature have a crucial impact on mechanical properties of printed parts. This technology still shows improvements, mostly in the field of new materials. Every breakthrough in the material field requires thorough testing, in order to acquire mechanical properties and determine material behaviour in exploitation. In order to extend the application of production of functional parts and prototypes obtained using additive manufacturing technologies, overviewing exploitation behaviour of conventional and advanced materials due to different conditions of 30 printing, the 30 printing parameters have been varied in order to attain its influence on mechanical properties of experimental samples, that are to be used in tensile testing. This research shows that prime mechanical properties, such as tensile strength, deformation at break, Young's modulus and toughness, may vary up to 30% in their value according to chosen printing parameters.", publisher = "Innovation Center of Faculty of Mechanical Engineering", journal = "3rd International Conference of Experimental and Numerical Investigations and New Technologies – CNN TECH 2019, Zlatibor, July 04-06.", title = "Analysis Of Parameter Impact On 3d Printed Experimental Samples For Tensile Testing", pages = "22-22", url = "https://hdl.handle.net/21.15107/rcub_machinery_6935" }
Milošević, M., Milovanović, A., Mladenović, G., Kolesar, S., Pandžić, A., Travica, M.,& Mitrović, N.. (2019). Analysis Of Parameter Impact On 3d Printed Experimental Samples For Tensile Testing. in 3rd International Conference of Experimental and Numerical Investigations and New Technologies – CNN TECH 2019, Zlatibor, July 04-06. Innovation Center of Faculty of Mechanical Engineering., 22-22. https://hdl.handle.net/21.15107/rcub_machinery_6935
Milošević M, Milovanović A, Mladenović G, Kolesar S, Pandžić A, Travica M, Mitrović N. Analysis Of Parameter Impact On 3d Printed Experimental Samples For Tensile Testing. in 3rd International Conference of Experimental and Numerical Investigations and New Technologies – CNN TECH 2019, Zlatibor, July 04-06.. 2019;:22-22. https://hdl.handle.net/21.15107/rcub_machinery_6935 .
Milošević, Miloš, Milovanović, Aleksa, Mladenović, Goran, Kolesar, Svetozar, Pandžić, Adi, Travica, Milan, Mitrović, Nenad, "Analysis Of Parameter Impact On 3d Printed Experimental Samples For Tensile Testing" in 3rd International Conference of Experimental and Numerical Investigations and New Technologies – CNN TECH 2019, Zlatibor, July 04-06. (2019):22-22, https://hdl.handle.net/21.15107/rcub_machinery_6935 .