Advances in fused deposition modeling on process, process parameters, and multifaceted industrial application: a review

Enyan, Michael; Amu-Darko, Jesse Nii Okai; Issaka, Eliasu; Abban, Olivier Joseph

doi:10.1088/2631-8695/ad32f6

Eng. Res. Express

2024

DOI: 10.1088/2631-8695/ad32f6

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Advances in fused deposition modeling on process, process parameters, and multifaceted industrial application: a review

Michael Enyan,

Jesse Nii Okai Amu-Darko,

Eliasu Issaka

et al.

Abstract: In the current era of intense competition, optimizing the design and manufacturing processes through time reduction measures can prove to be advantageous. The objective of profit maximization is a crucial consideration across diverse industries. The utilization of 3D printing technology has been crucial in producing personalized items at a reduced expense and with increased efficiency across various industrial domains. Fused deposition modeling (FDM) is an effective and cost-efficient Additive Manufacturing (A… Show more

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2024

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Cited by 1 publication

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Analyzing the effects of printing parameters to minimize the dimensional deviation of polylactic acid parts by applying three different decision-making approaches

Solouki,

Aliha,

Makui

et al. 2024

Sci Rep

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This article examines the influence of various factors on the precision of 3D printed objects produced through Fused Filament Fabrication (FFF) using Polylactic Acid (PLA) as the primary material. While PLA is widely chosen for its compatibility with biological applications, it does suffer from limited dimensional accuracy. The study focuses on investigating the effects of four independent parameters, namely layer height, infill density, printing speed, and the number of top and bottom layers, on accuracy along the three axes of length, width, and depth. The research objective is to identify the optimal levels of these parameters that minimize dimensional errors across all axes. However, due to conflicting requirements among different dimensions, determining a comprehensive decision-making methodology presents a significant challenge. To address this issue, three distinct approaches are proposed, each offering a unique perspective and practical application. Interestingly, the outcomes of these approaches converge on a single solution. Among these parameters, printing speed emerges as the dominant factor, while, the number of layers is the least influential. Moreover, consistent shrinkage is observed in the length and width dimensions, with greater errors evident in longer dimensions. Overall, a preference for lower layer height and infill density, along with higher printing speed and increased top and bottom layers, is recommended. The study findings indicate that the most effective parameter selection for reducing errors in all dimensions involves a layer height of 0.2 mm, infill density of 60%, printing speed of 50 mm/s, and the use of four top and bottom layers.

show abstract

Analyzing the effects of printing parameters to minimize the dimensional deviation of polylactic acid parts by applying three different decision-making approaches

Solouki,

Aliha,

Makui

et al. 2024

Sci Rep

View full text Add to dashboard Cite

show abstract

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Advances in fused deposition modeling on process, process parameters, and multifaceted industrial application: a review

Cited by 1 publication

References 115 publications

Analyzing the effects of printing parameters to minimize the dimensional deviation of polylactic acid parts by applying three different decision-making approaches

Analyzing the effects of printing parameters to minimize the dimensional deviation of polylactic acid parts by applying three different decision-making approaches

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