Abstract:The recent developments in the additive manufacturing to manufacture complex cost effective profiles is gaining popularity to test the strength of developed products through finite element method (FEM). Finite element analysis (FEA) is a potent tool for mechanical analysis. The combination of 3D printing and FEA is opening new opportunities to go further in the complexity of the product geometry. The autonomous underwater vehicle (AUV) propeller blade has a complex profile with multi-directional gradient and t… Show more
“…Despite these obstacles, additive manufacturing can aid in creating prototypes and innovative solutions for underwater applications, streamlining the design process and reducing production costs and time. Further research is crucial to advancing the safe and efficient use of additive manufacturing in underwater environments [4], [5].…”
Additive manufacturing (AM) has garnered significant attention due to its potential and advantages, particularly in the context of underwater environments. This study aims to identify articles describing the 3D printing of components applied in underwater environments. A systematic literature review was conducted on the Web of Science and Scopus databases regarding the proposed topic. After searching and applying inclusion and exclusion criteria, 15 most relevant articles were selected. Most of the articles focused on printing housings and propellers for Autonomous Underwater Vehicle (AUV), using Material Extrusion (MEX) technology and polymers as the printing material. The study provides insights into the potential of AM for the underwater industry, such as new design, and efficient production methods.
“…Despite these obstacles, additive manufacturing can aid in creating prototypes and innovative solutions for underwater applications, streamlining the design process and reducing production costs and time. Further research is crucial to advancing the safe and efficient use of additive manufacturing in underwater environments [4], [5].…”
Additive manufacturing (AM) has garnered significant attention due to its potential and advantages, particularly in the context of underwater environments. This study aims to identify articles describing the 3D printing of components applied in underwater environments. A systematic literature review was conducted on the Web of Science and Scopus databases regarding the proposed topic. After searching and applying inclusion and exclusion criteria, 15 most relevant articles were selected. Most of the articles focused on printing housings and propellers for Autonomous Underwater Vehicle (AUV), using Material Extrusion (MEX) technology and polymers as the printing material. The study provides insights into the potential of AM for the underwater industry, such as new design, and efficient production methods.
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