TY  - Type of reference 
TI  - FDM technology and effect of printing parameters on mechanical behavior of 3D printed Parts 
AU  - Abdellah El omari
 
AU  - Youssef Cherif
 
AU  - Aissa Ouballouch
 
AU  - Mohammed Nassraoui 
AB  - FDM technology in 3D printing is a significant advancement in additive manufacturing, offering various benefits such as mass reduction, design freedom, and rapid prototyping. However, the mechanical behavior of parts depends on printing parameters. While popular and cost-effective, FDM has limitations like print time and surface finishes. Optimization of parameters, such as temperature and extrusion speed, is crucial for mechanical properties of parts. Thoughtful choices can enhance strength through density and infill pattern. Ongoing research in this field is vital for more diverse and customized applications in industries like medicine and aerospace. 
DO  - 10.21494/ISTE.OP.2023.1001 
JF  - Uncertainties and Reliability of Multiphysical Systems 
KW  - Additive Manufacturing, Fused Deposition Modeling, Infill Pattern, Infill Density, Mechanical Behavior, Fabrication additive, Dépôt de matière fondue, Motif de remplissage, Densité de remplissage, Comportement mécanique,  
L1  - https://openscience.fr/IMG/pdf/iste_incertfia23v7n1_2.pdf 
LA  - en 
PB  - ISTE OpenScience 
DA  - 2023/09/6 
SN  - 2514-569X 
TT  - Technologie FDM et effet des paramètres d’impression sur le comportement mécanique des pièces imprimées en 3D 
UR  - https://openscience.fr/FDM-technology-and-effect-of-printing-parameters-on-mechanical-behavior-of-3D 
IS  - Issue 1 
VL  - 7 
ER  -