Experimental Research on the Fabrication of Modular Devices for Drilling Using PLA for Model Parts  

作　　者：Diana Băilă Remigiusz Łabudzki Igor Fodchuk Mirian Bonilla Diana Băilă;Remigiusz Łabudzki;Igor Fodchuk;Mirian Bonilla(Department Manufacturing Engineering, National University of Science and Technology POLITEHNICA Bucharest, Bucharest, Romania;Department of Technology Planning, Poznan University of Technology, Pozna, Poland;Department of Solid State Physics, Yuriy Fedkovych Chernivtsi National University, Chernivtsi, Ukraine;Edibon International S.A., Madrid, Spain)

机构地区：[1]Department Manufacturing Engineering, National University of Science and Technology POLITEHNICA Bucharest, Bucharest, Romania [2]Department of Technology Planning, Poznan University of Technology, Pozna, Poland [3]Department of Solid State Physics, Yuriy Fedkovych Chernivtsi National University, Chernivtsi, Ukraine [4]Edibon International S.A., Madrid, Spain

出　　处：《Open Journal of Applied Sciences》2024年第10期2790-2800,共11页应用科学（英文）

摘　　要：The objective of the work is to determine the influence of the PLA melting temperature during 3D printing on the dimensional accuracy of the model parts. Two modular drilling devices were also made using PLA model parts. The model parts were 3D printed using FDM technology and the ZMorph 2.0 hybrid 3D printer. The accuracy of 3D printing of the model part influences the realization of modular devices. In recent years, technology has evolved a lot, and the need to have the most efficient manufacturing equipment has increased. This is the reason for the development of 3D printers using FDM technology for plastic parts. The software used by these 3D printers used in FDM technology is very sophisticated, as they allow the manufacture of very precise 3D prototypes, identical to the designed 3D model, through modern additive manufacturing techniques. The quality and mechanical strength of the prototypes obtained using 3D printers is very good. The materials used by the 3D printers manufactured by FDM are cheap and accessible. These 3D printers are used to make three-dimensional objects (gears, flanges, bearings, covers, casings, mechanisms, figurines, interior and exterior design elements, architectural models, medical models).The objective of the work is to determine the influence of the PLA melting temperature during 3D printing on the dimensional accuracy of the model parts. Two modular drilling devices were also made using PLA model parts. The model parts were 3D printed using FDM technology and the ZMorph 2.0 hybrid 3D printer. The accuracy of 3D printing of the model part influences the realization of modular devices. In recent years, technology has evolved a lot, and the need to have the most efficient manufacturing equipment has increased. This is the reason for the development of 3D printers using FDM technology for plastic parts. The software used by these 3D printers used in FDM technology is very sophisticated, as they allow the manufacture of very precise 3D prototypes, identical to the designed 3D model, through modern additive manufacturing techniques. The quality and mechanical strength of the prototypes obtained using 3D printers is very good. The materials used by the 3D printers manufactured by FDM are cheap and accessible. These 3D printers are used to make three-dimensional objects (gears, flanges, bearings, covers, casings, mechanisms, figurines, interior and exterior design elements, architectural models, medical models).

关 键 词：Modular Device 3D Printer FDM-Fused Deposition Modeling Dimensional Accuracy Melting Temperature 

分 类 号：TP3[自动化与计算机技术—计算机科学与技术]