Design and characterization of 3D-printed TPU-based lattice structures. Application to methodology for the design of personalized therapeutic products

Purpose This papers aims to study lattice structures in terms of geometric variables, manufacturing variables and material-based variants and their correlation with compressive behaviour for their application in a methodology for the design and development of personalized elastic therapeutic product...

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Bibliographic Details
Published in:Rapid prototyping journal 2024-03, Vol.30 (11), p.72-86
Main Authors: de la Rosa, Sergio, Mayuet, Pedro F., Silva, Cátia S., Sampaio, Álvaro M., Rodríguez-Parada, Lucía
Format: Article
Language:English
Subjects:
Compacting
Compressive properties
Cushions
Customization
Design
Lattice design
Manufacturing
Mechanical properties
Mechanical tests
Medical device industry
Medical equipment
Methodology
Methods
Rapid prototyping
Stiffness
Structural analysis
Structural design
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Summary:Purpose This papers aims to study lattice structures in terms of geometric variables, manufacturing variables and material-based variants and their correlation with compressive behaviour for their application in a methodology for the design and development of personalized elastic therapeutic products. Design/methodology/approach Lattice samples were designed and manufactured using extrusion-based additive manufacturing technologies. Mechanical tests were carried out on lattice samples for elasticity characterization purposes. The relationships between sample stiffness and key geometric and manufacturing variables were subsequently used in the case study on the design of a pressure cushion model for validation purposes. Differentiated areas were established according to patient’s pressure map to subsequently make a correlation between the patient’s pressure needs and lattice samples stiffness. Findings A substantial and wide variation in lattice compressive behaviour was found depending on the key study variables. The proposed methodology made it possible to efficiently identify and adjust the pressure of the different areas of the product to adapt them to the elastic needs of the patient. In this sense, the characterization lattice samples turned out to provide an effective and flexible response to the pressure requirements. Originality/value This study provides a generalized foundation of lattice structural design and adjustable stiffness in application of pressure cushions, which can be equally applied to other designs with similar purposes. The relevance and contribution of this work lie in the proposed methodology for the design of personalized therapeutic products based on the use of individual lattice structures that function as independent customizable cells.
ISSN:1355-2546
1758-7670
DOI:10.1108/RPJ-08-2023-0287