Dimensional Errors Due to Overhanging Features in Laser Powder Bed Fusion Parts Made of Ti-6Al-4V

Charles, Amal; Elkaseer, Ahmed; Thijs, Lore; Scholz, Steffen

doi:10.3390/app10072416

Cited by 31 publications

(9 citation statements)

References 25 publications

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“…These factors can result in a sag on the downfacing regions, which affects the dimensional accuracy. Besides, warping and distortions can happen on the unsupported and overhanging sections (Xiang et al, 2019;Charles et al, 2020), as noticed in some wireframe/lattice prosthesis areas. A standard solution to address this is the addition of support structures to assist printability.…”

Section: Discussionmentioning

confidence: 99%

Design and Additive Manufacturing of a Biomimetic Customized Cranial Implant Based on Voronoi Diagram

et al. 2021

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Reconstruction of cranial defects is an arduous task for craniomaxillofacial surgeons. Additive manufacturing (AM) or three-dimensional (3D) printing of titanium patient-specific implants (PSIs) made its way into cranioplasty, improving the clinical outcomes in complex surgical procedures. There has been a significant interest within the medical community in redesigning implants based on natural analogies. This paper proposes a workflow to create a biomimetic patient-specific cranial prosthesis with an interconnected strut macrostructure mimicking bone trabeculae. The method implements an interactive generative design approach based on the Voronoi diagram or tessellations. Furthermore, the quasi-self-supporting fabrication feasibility of the biomimetic, lightweight titanium cranial prosthesis design is assessed using Selective Laser Melting (SLM) technology.

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Section: Discussionmentioning

confidence: 99%

Design and Additive Manufacturing of a Biomimetic Customized Cranial Implant Based on Voronoi Diagram

et al. 2021

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“…When an overhang is applied, since there is no direct supporter, an excessive overhang may cause an error in shape dimensions and cause different results from simulation. Amar et al's research presented a model that predicted and secured by confirming and analyzing dimensional errors designed in three shapes due to residual stress generated in a sculpture without overhang [17,18]. In the case of Ruochen's study, a geometric prediction model based on artificial neural network (ANN) was created by collecting extensive data on the overhang angle using a dome-shaped truss lattice structure with various overhang angles applied to predict and complement the shape according to the overhang angle.…”

Section: Resultsmentioning

confidence: 99%

Selective Laser Melting Process for Sensor Embedding into SUS316L with Heat Dissipative Inner Cavity Design

et al. 2021

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Artificial intelligence and Internet of Things (IoT) technology, which are the core of the 4th industrial revolution, can resolve many problems that optimization of production times in the manufacturing process and reduction of materials required etc. In order to utilize the 4th industrial revolution technology, real-time monitoring technology of metal parts is essential, so technology for embedding sensors and IC chips into parts is essential. Using metal 3d printing technology, it is possible to embed IC chips into metal parts, which was impossible because of the existing high-temperature metal manufacturing process of casting or forging. Here we introduce a novel new method for sensor embedding into SUS316L by hemisphere design to avoid direct laser exposure onto sensors during selective laser melting process. Thermal and microstructural analysis was carried out to characterize the property of inner hemisphere for safe thermal couple embedding into SUS316L.

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“…The first one is to add supports for overhanging regions improving the thermal conduction, which is not applicable to the cases in this study. The second one is to set different process parameters for overhanging regions from that for solid regions; for example, smaller laser power and/or higher scanning speed, reducing the volumetric energy density on overhanging regions [42].…”

Section: Discussion On the Formation Mechanisms Of Hanging Structurementioning

confidence: 99%

Investigation on shape deviation of horizontal interior circular channels fabricated by laser powder bed fusion

Feng

Chen

Kamat

et al. 2020

Additive Manufacturing

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The fabrication of horizontal interior circular channels poses some unique challenges to the laser powder bed fusion (L-PBF) process. The engineering challenge is to be able to print horizontal interior channels using L-PBF without using support structures, while the scientific challenge is to predict the shape deviation in the horizontal channel. This paper studies the geometric fidelity (roundness and shape deviation) of L-PBF printed horizontal interior circular channels (diameters 1− 3 mm) by developing experiment-based regression models and a preliminary computational fluid dynamics (CFD) simulation model. The roundness error is found to be affected by the shape/size of the melt pool, thermal stresses, beam offset, and the slicing algorithm. It is recommended that to decrease the roundness error, in addition to choosing a proper beam offset, the width/depth of the melt pool should be minimized by minimizing the volumetric energy density (smaller laser power or higher scanning speed). Shape deviation in overhanging structures is determined by the thermo-mechanical driven molten flow in the melt pool. Hanging structures with irregular profiles (dross) are formed due to the sinking of the melt pool on an unconsolidated powder bed under the effect of gravity, surface tension, and poor thermal conductivity. (Partially) unmelted powder randomly adheres to the edges of the melt pool enlarging the hanging structure and roughening the profile. Small laser power or large scanning speed benefits reducing the roundness error and hang-diameter ratio. 0 • or 45 • rotational linear scanning strategy can be selected for minimizing the roundness error or the hang-diameter ratio, respectively.

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Dimensional Errors Due to Overhanging Features in Laser Powder Bed Fusion Parts Made of Ti-6Al-4V

Cited by 31 publications

References 25 publications

Design and Additive Manufacturing of a Biomimetic Customized Cranial Implant Based on Voronoi Diagram

Design and Additive Manufacturing of a Biomimetic Customized Cranial Implant Based on Voronoi Diagram

Selective Laser Melting Process for Sensor Embedding into SUS316L with Heat Dissipative Inner Cavity Design

Investigation on shape deviation of horizontal interior circular channels fabricated by laser powder bed fusion

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