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Topology and build orientation optimization for additive manufacturing considering build height and overhang area
Simultaneous topology and build orientation optimization approaches aim to reduce the cost of additive manufacturing components by minimizing or...
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Hybrid optimization for build orientation in fused filament fabrication using low- and high-fidelity build time estimation models
Build time is one of the crucial aspects of the fused filament fabrication (FFF) process. A reliable estimate of build time is vital, as it is the...
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Build orientation determination of multi-feature mechanical parts in selective laser melting via multi-objective decision making
Selective laser melting (SLM) is a unique additive manufacturing (AM) category that can be used to manufacture mechanical parts. It has been widely...
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Additive manufacturing of short carbon filled fiber nylon: effect of build orientation on surface roughness and viscoelastic behavior
Additive manufacturing of polymers is used for rapid prototy** and in specific applications for the fabrication of final products. As the...
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Build orientation optimization for extrusion-based additive manufacturing coupling with adaptive slicing
Additive manufacturing (AM) is an advanced technique to fabricate physical parts from 3D digital models layer-by-layer without geometry limitations....
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Concurrent optimization of surface roughness, build time, and mechanical properties of additively manufactured product in terms of part build orientation
With the increasing tendency to use the Additive manufacturing (AM) process and especially the Selective laser melting (SLM), improving the...
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The effect of build orientation on the mechanical properties of a variety of polymer AM-created triply periodic minimal surface structures
The advancements achieved in additive manufacturing (AM) have substantially transformed the design process of functional components. The change...
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Effect of build-up orientation angle and printing speed on mechanical properties and micro- and macro-defect formation in 17-4 PH stainless steel components manufactured by Bound Metal Deposition
In the present work, the effect of build-up orientation angle and printing speed on mechanical properties of 17-4 PH stainless steel components...
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Effect of Raster and Build Orientation on Fracture Toughness for Additively Manufactured Multi-fiber Reinforced ABS Composites
There is advance enhancement in fused deposition modeling of 3D printing in which dual extrusion process gives a new approach to fabrication of...
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Analysis of tensile strength of thin ABS specimens 3-D printed in various build orientations for turbomachinery applications
Fused Deposition Modelling (FDM) 3D printing has become popular in recent years due to its affordability, accessibility, and ability to rapidly...
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Effects of Build Orientation and Raster Angle on Surface Roughness and Mechanical Strength of FDM Printed ABS
Build orientation and raster angle are critical factors that significantly influence mechanical behavior and surface roughness. Fused deposition...
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Decoupling the effect of orientation on additively manufactured metals by lattice engineering
The properties of additively manufactured solid metal parts are sensitive to the build direction due to changes in microstructure. Here, we show that...
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Development of Part Build Orientation Algorithm for FDM 3D Printing
FDM 3D printing is one of the most widely used 3D printing techniques. The mechanical properties and overall quality of part produced by FDM are...
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Comparative Evaluation of Optimization Algorithms for Automatic Build Orientation for Powder Bed Fusion of Metals Using a Laser Beam
For additive manufacturing (AM) using Powder Bed Fusion of Metals using a Laser Beam (PBF-LB/M), digital preparation steps (part design, part...
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Effect of Print Speed and Build Orientation on Tensile Strength of FDM 3D Printed PLA Specimens
Additive Manufacturing is the process of producing 3D objects by adding material in a layer-by-layer manner. It is gaining traction in recent times...
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Influence of Build Orientation on Tensile and Flexural Strength of FDM Fabricated ABS Component
Additive manufacturing (AM) is a tool-free manufacturing process that has ability to fabricate a part with high dimensional accuracy with ease....
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Creep behavior of polyamide 12, produced by selective laser sintering with different build orientations
The successful use of components produced by selective laser sintering as a rapid manufacturing process requires a comprehensive understanding of the...
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Build Plate Roughness Study on Part Bonding for the Laser Powder Bed Fusion Process
Additive manufacturing (AM) processes have emerged as valuable partners in conventional manufacturing, facilitating the production of low-batch...
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Multi-orientation optimization of complex parts based on model segmentation in additive manufacturing
Build orientation has a significant impact on the surface quality, support structure, and final cost of the fabricated model. In this study, we focus...
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Many-objective optimization of build part orientation in additive manufacturing
Additive manufacturing is the process of building a three-dimensional object from a computer-aided design model, by successively adding material...
