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Enhanced Toolpath Planning for Fused Filament Fabrication [PDF]
Volume 11A: 46th Design Automation Conference (DAC), 2020 Abstract The slicing software process the 3D geometry into 2D slices and toolpaths for additive manufacturing processes. Most slicing software allows users to select from an array of infill patterns and to specify the overall infill volume fraction globally.
Xingchen Liu, Hongrui Chen
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Fused filament fabrication: A comprehensive review
Journal of Thermoplastic Composite Materials, 2020Fused filament fabrication (FFF) is one of the low cost additive manufacturing (AM) techniques capable of printing complex design (both with commercial and non-commercial feedstock filaments by using different processing parameters). In this paper a comprehensive review has been prepared on FFF operating capabilities from thermoplastics material’s ...
Sudhir Kumar +3 more
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Fused filament fabrication melting model
Additive Manufacturing, 2018Abstract This paper presents an analytical melting model inside the nozzle of a fused filament fabrication process. The model presents the limiting case scenario where the maximum melting rate is controlled by the applied force. Here, instead of having a nozzle filled with polymer melt, the melt is reduced to a melt film at the tip of the filament as
Julian Kattinger +2 more
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Functional fillers in composite filaments for fused filament fabrication; a review
Materials Today: Proceedings, 2021Abstract Fused Deposition Modelling (FDM or Fused Filament Fabrication, FFF) constitutes the most widespread 3D printing technology because it uniquely combines simplicity, cost and speed. One of the major drawbacks of this promising technology that hinders its applicability to various industrial fields constitutes the lack of variation of feedstock ...
Panagiotis M. Angelopoulos +2 more
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Rapid prototyping journal, 2022
Purpose The extrusion-based additive manufacturing method followed by debinding and sintering steps can produce metal parts efficiently at a relatively low cost and material wastage.
M. Caminero +4 more
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Purpose The extrusion-based additive manufacturing method followed by debinding and sintering steps can produce metal parts efficiently at a relatively low cost and material wastage.
M. Caminero +4 more
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Curved layered fused filament fabrication: An overview
Additive Manufacturing, 2021Abstract The use of curved layers in extrusion additive manufacturing techniques leads to several benefits, including surface finishing and structural performance. In consequence, numerous works on curved layered fused filament fabrication (CLFFF) have been published recently.
Enrique Cuan-Urquizo +6 more
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Tough thiourethane thermoplastics for fused filament fabrication
Journal of Applied Polymer Science, 2017ABSTRACTFused filament fabrication (FFF) is the most common form of additive manufacturing. Most FFF materials are variants of commercially available engineering plastics. Their performance when printed can widely vary, thus there is an increasing volume of research on alternative materials with thermal and mechanical performance optimized for FFF.
Ellson, Gregory +6 more
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Fused Filament Fabrication for External Medical Devices
2021Fused Filament Fabrication (FFF) is the most commonly used additive manufacturing process primarily used to build polymer-based components. FFF finds wide applications in various fields, like—prototyping, tooling, automotive, medical, etc. Among them, the applications of FFF is expanding widely in medical sector mainly due to the customization freedom ...
K. S. Bindra +4 more
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Generation of Tool Path in Fused Filament Fabrication
2021Additive manufacturing is the process of making a physical part using digital data in the form of CAD model by depositing material layer over layer. Additive manufacturing market is increasing rapidly as it can manufacture the most complex part in comparison with subtractive manufacturing processes.
Ankit Nayak +3 more
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Viscoelastic properties of fused filament fabrication parts
Additive Manufacturing, 2019Abstract Parts made by fused filament fabrication differ in their mechanical properties from the parent material. To investigate the effect of the manufacturing process on the mechanical properties of 3D-printed parts, a series of experiments including Dynamic Mechanical Analysis (DMA) and ultrasonic wave propagation were conducted. For this purpose,
Abrahan Bechara +6 more
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